l x-ray satellite energies
TRANSCRIPT
ATOMIC DATA AND NUCLEAR DATA TABLES 26,383-466 (1981)
L X-RAY SATELLITE ENERGIES*
FERNANDO PARENTE
Instituto National de Investigacao Cientifica Lisbon, Portugal
MAU HSIUNG CHEN and BERND CRASEMANN
Department of Physics and Chemical Physics Institute University of Oregon, Eugene, Oregon 97403
and
HANS MARK
Department of the Air Force, Washington, D.C. 20330
Theoretical energies are tabulated for the L x-ray satellites that arise from electric dipole and quadrupole transitions in the presence of one spectator hole in the M- or N-shell. Results are listed for 11 elements with atomic numbers 65 5 Z 5 95. The computations are relativistic and include quantum-electrodynamic corrections. Subsidiary tables list the Coulomb and Breit inter- action energies for double-hole states and the relative x-ray intensities of double-hole multiplet states.
* Work supported in part by the Air Force Gflice of Scientific Research under Grant 79-0026
0092-640X/81/040383-84$02.00/0 Copyright 0 1981 by Academic Press, Inc. All rights of reproduction in any form reserved. 383 Atomic Data and Nuclear Data Tables. Vol. 26. No. 5. September 1981
F. PAREDUE et al. L X-Ray Satellite Energies
CONTENTS
INTRODUCTION . . . . . . . . . . ..*.............................. 384 Theory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 384 Diagram-Line Energies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 385 Breit-Interaction Effect on Multiplet Splitting. . . . . . . . . . . . . . . 385 Computation of Weighted Average Energies . . . . . . . . . . . . . . . . 385
EXPLANATION OF TABLES . . . . . . . . . . . . . . . . . . . . . . . . . . ..a*. 387
TABLES I. L X-Ray Satellite Energies of 65Tb, g,H~, ,,,Yb,
and lIW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 388
II. L X-Ray Satellite Energies of ,$t, *,,Hg, esAt, and aeRa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 411
III. L X-Ray Satellite Energies of goTh, eZU, and esAm . . . 434
IV. Coulomb and Breit Interaction Energies for Two-Hole States . . . . . . . . . ..**................ 458
V. Relative X-Ray Intensities of Double-Hole Multiplet States .,...,...,,....,.............. 466
INTRODUCTION
These tables contain the results of ab initio rela- tivistic calculations of the energies of L-series x-ray satellites that arise from the presence of one “spectator hole” in the M- or N-shells of the emitting atoms. For 11 elements with atomic numbers between 65 and 95, we list the energies of all electric-dipole and electric- quadrupole L x-rays for which the final atomic state comprises two vacancies in the M- and N-shells. This class of radiative transitions includes the bulk of L x-ray satellites that fall on the high-energy side of their respective diagram lines. 1,2
x-Ray satellites of the kind treated here arise in the radiative deexcitation of atoms which have been doubly ionized in inner shells through collisions with photons, electrons, or ions. The calculated energies can lead to the identification of the satellites in ob- served spectra, and hence, to a better understanding of the mechanisms of multiple inner-shell ionization.
Theory
Energies of initial and final atomic states were computed separately, to allow for complete relaxation. The same relativistic code was employed that has been
developed for our calculations of neutral-atom binding energies3 and Coster-Kronig energies.4 With a local approximation to the atomic potential, Dirac-Hartree- Slater (DHS) wave functions were computed.5 These zero&order wave functions were used to calculate the expectation value of the Hamiltonian,
H = $ [ca**p, + p&z + V&J + ; rt,‘. (1) f=l i4
A first-order correction to the local approximation was thus made. Computer-time requirements are reduced substantially by the use of this method; yet energies computed with this approach agree with full Dirac- Fock results6 to better than 1 part in lo@.
In calculating the electron-nucleus energy, the nucleus was taken to be a homogeneously charged sphere. The interaction energy between atomic elec- trons due to the exchange of a single transverse photon was taken into account by including the ‘Breit inter- action’ through an operator suitable for the local ap- proximation: *
HBr = -r;2[aI*a2 cos orI + (1 - cos or,,)], (2)
384 Atomic Data and Nuclear Data Tables, Vol. 26. No. 5, September 1991
F. PARENTE et al. L X-Ray Satellite Energies
where a1,2 are the usual Dirac matrices, o is the energy transferred by the virtual photon, and r12 is the inter- electron separation. A vacuum-polarization correction was included by means of first-order perturbation theory up to terms in ((YZ)’ according to the method of Huang.s The self-energy shift was calculated for 2s and 2p,,, states from Mohr’s Coulomb shifts.‘O The effects of screening, relaxation, and finite nuclear extent on the self-energy were taken into account approximately by using the same correction factors that were em- ployed for the vacuum polarization and applying these corrections to Mohr’s point-Coulomb self-energy shifts.
The computations were carried out inj -j coupling, appropriate for the high-2 region. The electrostatic in- teraction between the two inner-shell holes in the initial and final states was included, but coupling with untilled outer shells, if any, was neglected. No electron- electron Coulomb correlation effects were included.
Diagram-Line Energies
Ab initio theoretical L x-ray diagram-line energies, calculated under assumptions identical with those stated above, were derived from the corresponding ini- tial and final single-hole-state energies.” Theoretical satellite shifts with reference to these diagram-line energies are included in Tables I-III.
Breit-Interaction Effect on Multiplet Splitting
The Breit interaction is included in the computation of the average configuration energies of Tables I-III, but not in the calculation of the multiplet splittings, the latter being based on the electrostatic interaction alone. The effect of the Breit interaction on multiplet splittings is usually quite slight, but in some cases it can assume importance. In this section we describe how the reader can include the Breit-interaction effect in the multiplet splitting if highest accuracy is desired.
We use the Breit operator in the form of Eq. (2). For atoms with double inner-shell vacancies, the multiplet splitting can be found by evaluating the cor- responding coupled-two-hole matrix elements of the electrostatic and Breit interaction operators. Because closed shells do not contribute to the multiplet split- th3, l2 the splitting of the double-hole states is deter- mined by the coupled-two-hole states alone. The sum of the electrostatic and Breit operators is
H 1 - (Yl’(Y.2
CBr = cos or1.2. (3) r12
The matrix element of HBr is a special case of Eqs. (11) and (19) of our earlier work,13 to which the reader is referred for details.
In Table IV, multiplet splittings for j-coupled double-hole states are listed, computed with the operator given by Eq. (3) for atoms with atomic num- bers 65 d Z S 95. These splittings refer to the centers of gravity of the respective con@urations.
To include the splittings of Table IV in the x-ray satellite energies listed in Tables I-III, it is necessary first to compute the center of gravity of the pertinent double-hole configuration, then to add the splittings. We illustrate the procedure with an example, the com- plex L &f3 + M&f, for Z = 65. From Table I, we find
LlM3 (J = 1) -+ M3M3 (J’ = l), El = 6973.32 eV,
L,M3 (J = 1) --* M2M3 (J’ = 2), E2 = 6965.05 eV,
L,M3 (J = 2) --, M2M3 (J’ = I), E3 = 6968.87 eV,
L,M3 (J = 2) + M2M3 (J’ = 2), E4 = 6960.60 eV.
The center-of-gravity energy of the complex is
E av
= Ci(2J + lh(25’ + lh*Ei
2,(2&f + 1)*(23’ + 1)j ’ (4)
whence we have, in the present example,
E _ 9E1 + 15E2 + 15E3 + 25E4 a” - 64
= 6%5.37 eV.
To this average energy, we add the pertinent L,M,(J) splitting of the initial state from Table IV and subtract the MILM3(J’) final-state splitting from Table IV, to find E, = 6973.16 eV, E2 = 6%5.07 eV, E3 = 6%8.79 eV, and E4 = 6%0.70 eV.
If it is desired to include intermediate coupling in the energy calculations, the necessary energy matrices can be obtained from the authors.
Computation of Weighted Average Energies
Multiplet splitting is not resolved in most experi- mental L x-ray satellite spectra. To compare calculated energies with such measurements, it is necessary to weight the theoretical line energies with the appropriate intensity distribution so as to find a suitable theoretical average energy difference between the two double-hole configurations.
We proceed to calculate the intensity distribution under the following assumptions:
1. The initial multiplet states are populated sta- tistically.
2. The effect of the multiplet energy differences on the x-ray matrix elements can be neglected. (These energy differences are typically a few tens of eV out of a few keV.)
385 Atomic Data and Nuclear Data Tables. Vol. 26, No. 5, September 1961
F. PARENTE et al. L X-Ray Satellite Energies
3. The Auger decay rates of the various multiplet states of a configuration can be taken to be identical. In fact, for heavy atoms there are so many open Auger channels that the multiplet effect on Auger emission rates for double-hole states becomes minimal.
The relativistic electric-dipole x-ray emission rate, inj-j coupling, for a double-hole-state transition h.hW -+.13h(J’) id4
T(e) = C1zy, (3 with
C1 = (2J’ + 1)(2j, + l$ ;; :‘r (6)
and T’,e’ = 2crw(2j3 + l)b’(~,, K~, l)R,(e). (7)
Here, Tp)is the singlehole-state transition ratej, +j3, which is independent of the initial and final total angular momenta J and J’.
Under the assumptions listed above, the intensi- ties of the L x-ray satellite multiplets will be propor- tional to (2 J + l)C1. Values of (2 J + l)C1 for pertinent transitions are listed in Table V.
Acknowledgments
We thank Quoc Oai Vu for help with the organ- ization of these tables and Sandy Hill for expert typing.
References
1. F. R. Hirsh, Jr., Rev. Mod. Phys. 14, 45 (1942)
2. A. N. Nigam and R. B. Mathur, in Proceedings of the International Conference on Inner-Shell Ion- ization Phenomena and Future Applications, edited by R. W. Fink, S. T. Manson, J. M. Palms,
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
and P. Venugopala Rao. U. S. Atomic Energy Commission Report No. CONF-720404, 1973 (un- published)
K.-N. Huang, M. Aoyagi, M. H. Chen, B. Crase- mann, and H. Mark, ATOMICDATAANDNUCLEAR DATA TABLES 18, 243 (1976)
M. H. Chen, B. Crasemann, K.-N. Huang, M. Aoyagi, and H. Mark, ATOMIC DATA AND Nu- CLEARDATA TABLES 19, 97(1977)
D. A. Liberman, D. T. Cromer, and J. T. Waber, Comp. Phys. Commun. 2, 107 (1971)
I. P. Grant and B. J. McKenzie, J. Phys. B 13, 2671 (1980)
G. Breit, Phys. Rev. 34, 553 (1929); Phys. Rev. 36, 383 (1930); Phys. Rev. 39, 616 (1932)
J. B. Mann and W. R. Johnson, Phys. Rev. A 4, 41 (1971)
K.-N. Huang, Phys. Rev. A 14, 1311 (1976)
P. J. Mohr, Ann. Phys. (N. Y.) 88,52 (1974); Phys. Rev. Lett. 34, 1050 (1975)
M. H. Chen, B. Crasemann, M. Aoyagi, K.-N. Huang, and H. Mark (unpublished)
J. C. Slater, Quantum Theory of Atomic Structure (McGraw-Hill, New York, 1960), Vol. I
M. H. Chen, E. Laiman, B. Crasemann, M. Aoyagi, and H. Mark, Phys. Rev. A 19,2253 (1979)
J. H. Scofield, in Atomic Inner-Shell Processes, edited by B. Crasemann (Academic Press, New York, 1975), Vol. I, p. 265
386 Atomic Data end Nuclear Data Tables, Vol. 26, No. 5. September 19Sl
F. PARENTE et al. L X-Ray Satellite Energies
EXPLANATION OF TABLES
All energies are in electron volts (eV)
TABLES I-III. L X-Ray Satellite Energies TERBIUM Name of element Z = 65 Atomic number TRANSITION Initial two-hole state with its J-value-final
two-hole state with its J’ value. For example,
ENERGY SHIFT
LlMl O-MlM2 1 The initial two- hole con@uration is L 1M1(2s,,,3s1,&* coupled to J = 0; the final two-hole configuration is MlM2 (3~,,~3p,,,) coupled to J’ = 1
Transition energy in eV Energy shift (in eV) with respect to the per-
tinent diagram line, computed from Ref. 11
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) These energies are calculated from Eq. (3). The text following this
equation gives an example of their use. Z Atomic number h&2 Double-hole state J Total angular momentum to which the two
holes are coupled
TABLE V. Relative X-Ray Intensities of Double-Hole Multiplet States Transitions Initial and final double-hole states Total angular momentum Total angular momentum J of initial and J’ of
final state (2J + 1)-C, Relative intensity according to Eqs. (5) and (6)
* In the nlj notation, where II is the principal quantum number, I the orbital angular momentum, and j the total angular momentum (in multiples of h), the states that occur in the present tables are
K Is,,2 M4 3&z Ns 4.f~ Ll 2Sl,!z M, %2 NT 4f,,z L2 2Pl,2 Nl 4slj2 0, 5slj2 Ls 2P3/2 Nz 4~11, 02 5Pm Ml 3s~~ NS 4~~2 03 5~~2 M2 3pl12 N4 %2 04 5&z MS 3~~2 N, %2 05 5dm
387 Atomic Data and Nuclear Date Tables. Vol. 25, No. 5. September 1981
388 F. PARENTE et al. L X-Ray Satellite Energies
TRANSITIW EhERCV SHIFT ENERGY SHIFT ENERGY SHIFT ENERGY SHIFT
LAN1 O - Ml&! 1 LlNl I - Ml&? 0 LlMl 1 - MlN2 1 LlH2 1 - n2n2 0 LlW 1. - 113112 1 LlM3 1 - NM2 2 LlW 2 - NW2 1 LlM3 2 - M3112 2 Ll114 1 - N4H2 1 LlM4 1 - M4Nt 2
LlN4 2 - MM2 1 LlH4 2 -Il*N22 LlM 2 - nsa2 2 L1Mf 2 - ass2 3 LlRS 3 - WIN2 2 LlN5 3 - MM2 3 LlNl 0 - NlM2 1 LlNl 1 - NlR2 0 LlNl 1 - NlM2 1 LlN2 0 - WW2 1
LlN2 l- N2N2 0 LlN2 1 - N2H2 1 LlN3 1 - N312 1 UN3 I- h31U 2 LlN3 2 - N3Nt 1 LlN3 2 - N31U 2 LlN4 1 - N4K? 1 LlN4 1 - N4N2 2 LlN4 2 - N4llZ 1 LlN4 2 - NC112 2
LlN5 2 - hSM2 2 LINS 2 - N5Nt 3 LlNS 3 - US112 2 LlNS 3 - hSM2 3 LlN6 2 - NLM2 2 LlN6 2 - N6112 3 LlN6 3 - Nb112 2 LlN6 3 - Nbli2 3 LlN7 3 - NW2 3 ~1~7 3 - ~7~2 4
I.1117 4 - N7M2 3 LlN7 4 - Nllu 4 LlNl 0 - Mllu 1 LlMl 1 - MuI3 1 LlMl 1 - MlM3 2 LIN2 0 - 112113 1 LlN2 1 - IuM3 1 LlN2 1 - llZM3 2 LlN.3 1 - m3w3 0 LlN3 1 - MfM3 2
LlU3 2 - x383 2 LlM 1 - u4u3 0 LlW4 l- 114113 1 LlN4 1 - M4m3 2 LlR4 2 - n4M3 1 LlN4 2 - MM3 2 L1M4 2 - u4u3 3 LlM5 2 - M5H3 1 LlMS 2 - N5M3 2 LlM 2 - MN3 3
LlM5 3 - 115113 2 LlWS 3 - M5113 3 L1)15 3 - NW3 4 LlNl 0 - N1~3 1 LlNl 1 - 111113 1 LlNl 1 - N1N3 2 LlN2 0 - 112113 1 LlNZ 1 - N2M3 I LlN2 1 - k2I@ 2 LlN3 1 - N3113 0
L1N3 1 - WIU 1 LlN3 I - N313 2 LlN3 2 - .)y3113 1 LlN3 2 - h3M3 2 LlN3 2 - NM3 3 LlN4 1 - MM3 0 LlN4 1 - N4N3 I LlN4 1 - N4113 2 LlN4 2 - N4H3 1 LlN4 2 - N4N3 2
LlN4 2 - N4M3 3 LlNS 2 - 11513 1 LuJ5 2 - NsM3 2 LlN5 2 - NW3 3 LlNS 3 - W(13 2 LAN5 3 - NSt43 3 LlNS 3 - NS113 4
6980.3% 6972.5% 6557.69 6963.14 6973.32 6565.05 6968.07 6960.60 6955.03 6901.94
34.29 27.49
:‘,-:r: 20:22 19.95
:x=3: . 9.94
36.04
7512.06 37.21 7503.70 2%.%6 7488.22 13.3% 7494.09 19.25 1504.46 29.62 7495.8% 21.04 1499.03 24.99 1491.25 16.41 7485.53 10.69 7513.56 3%. 7l
8357.41 034%. 17 8331.79 8338.33 0340.94
:3::=:9 . 0334.9% 8329.03 0358.78
40.11 9572.75 43.44 30.87 9562.22 32.92 14.49 9544.63 15.32 21.03 9552.12 22.61 31.64 95b2.96 33.66 22.59 9553.30 23.99 26.13 9557.66 28.35 17.68 9547.99 18.6% ller3 9541.6% 12.37 4k.48 9513.80 44.49
6960.79 15.69 1491.53 16.6% 6907.69 42.60 7519.56 44. ri 6974.43 29.34 rso5.59 30.74 6969.62 24.52 rsao. 5r 25.73 6966.10 21.01 1496.93 22.0% 6S6l.29 lb.19 1491.91 17.07 6950.22 5.13 r400.40 5.55 6946.79 1.69 1476.76 1.92 6945.65 a.55 7475.5% o.r3 6951.17 6.07 7481.45 6.61
8335.3% 8365.12 8350.04
%f+o% . 8335.59 8323.46 8319.52 8318.25 0324.60
ia.or 9548.45 19.14 47.82 9580.57 51.27 32.74 9563.95 34.64 27.42 955e.22 28.91 23.61 9554.24 24.93 18.29 9540.50 19.20
6.16 9535.82 6.51 2.21 9531.31 2.07 0.95 9529.99 0.6% 7.30 9537.12 7.81
6943.0% -2.01 7472.97 -1.8% 8315.50 -1.80 9527.02 -2.29 6951.67 6.51 1481.97 r. 13 8325. lb r.66 9537.75 8.45 6940.51 3.41 747%. 56 3.71 8321.41 4.11 9533.51 4.20 6947.15 2.66 1417.77 2.92 8320.5% 3.27 9532.59 3.2% 6947.64 2.54 7417.64 2.80 8320.44 3.14 9532.44 3.13 6946.0% 1.78 7476.85 2.01 8319.60 2.30 9531.52 2.21 6546.03 0.93 7415.97 1.12 8318.66 1.36 9330.55 1.24 6947.33 2.23 7471.33 2.4% 8320.11 2.81 9532.17 2.86 6946.9% 1.0% 7476.97 2.12 8319.73 2.42 9531.74 2.43 696a.28 3.1% 7470.33 3.4% 832i.ir 3.61 9533.36 4.05
6948.01 2.92 74 7%. 03 3.1% 8320.83 6947.64 2.55 r4rr.64 2.00 8320.42 6946.63 1.53 7416.58 1.73 8319.29 6946.26 1.16 1416.19 1.35 %3l%.%% 6943.36 -1.14 7473.13 -1.71 8315.5% 6944.94 -0.16 7474.82 -0.03 8317.43 6943.39 -1.71 1473.16 -1.6% 8315.62 6944.97 -0.13 7474.85 0.01 83lr.46 6944.16 -0.94 7473.9% -0,ar 8316.49 6943.14 -1.35 1473.53 -1.31 0316.01
3.53 3.12 1.99 1.5%
-s -p:
-0:01 -1.29
9532.93 3.62 9532.4% 3.17 9531.22 1.91 9530.76 1.45 9526.01 -2.44 9529.25 -0.06 9526.92 -2.39 9529.30 -0.01 9520.03 -1.2% 9527.41 -1.90
6544.12 -0.9% r4r3.93 6943.70 -1.39 7473.49 7 123.40 22.12 7670.97 r1oa.ro -0.57 7655.13 7130.44 29.17 76a6.04 7129.37 28.10 7605.l6 7131.05 30.5% 76ar.75 7123.5% 22.31 7619.17 ruo.58 9.30 7665.40 7126.95 25.6% 76a2.40
-0.91 -1.35 23.52 -0.32
2-t: 32:30 23.72
9.93 26.95
8316.44 8315.96
:‘,Ot’z: %;;:E
. 0575.24 0566.19 8551.21 8569.15
-0.86 952r.96 -1.35 -1.34 9527.34 -1.97 25.65 9050.62 2%. 12
0.03 9822.53 0.00 32.72 9857.12 35.19 32.14 9057.51 35.04 34.92 9660.60 38.07 25.%7 9850.93 28.40 10.90 9834.21 11.6% 28.83 9053.40 30.87
7122.51
;:::=:x 7129:Ob 7126.93 ‘1134.82 7126.49 7114.25 7137.86 7122.39
21.23 76r7.7r 21.83 7618.51 19.90 7616.55 27.79 76M.73 25.66 7602.54 33.54 7690.13 25.22 76%2.0% 12.97 7669.22 36.5% 7693.70 21.12 7rrr.ro
8564.23 23.91 rn48.09 25.56 8565.20 24.8% 9049.35 26.82 0563.1% 22.86 9847.25 24.73 8571.02 31.50 9056.49 33.96 8569.53 29.21 9054.03 31.51 0578.16 37.84 9863.27 40.74 8569.03 20.71 9853.49 30.96 8555.20 14.0% 9830.35 15.82 0581.00 40.6% 9815.92 43.39 0564.19 23.87 9648.03 25.50
1129.53 28.25 rll4.06 12.7% 7138.75 37.4% rio5.30 4.02 rloo.r3 -0.55 7102.99 1.72 7104.12 2.84 7104.6l 3.34 1103.02 2.54 rO95.85 -5.42
7605.04 7669.04 7694.5% 7659.77
;:x: r65eZsa 7659.10 7658.21 1649.0%
22.32 23.06 21.10 29.2% 2r.10 35.2% 26.63 13.77
z-f; .
29.60 13.59 39.13
4.32
-3T” 3: 13 3.66
2::
0571.07 31.55 9056.20 33.6% 8555.06 14.74 P(L38.31 15.79 ~5~1.~~ 41.56 9066.84 44.31 8545.05 4.73 9821.42 4.90 8539.84 -0.4% 9021.60 -0.93 8542.36 2.04 YBL4.35 1.83 8543.7% 3.46 9826.04 3.51 0544.34 4.02 9826.61 4.14 0543.45 3.13 9025.69 3.16 8534.4% -5.84 91)15.r7 -6.76
7107.29 6.02 7102.19 0.91 7106.42 5.14 rlol.31 0.04 7 106.42 5.14 7lOO.80 -0.4% 7102.33 1.06 r 104.42 3.15 rlo3.29 2.01 7105.37 4.10
z-2; 76601 8% 7655.56 7660.8% 1b55.02 7656.63 1650.82 7657.63 7659.82
6.35 8547.11 6.79 Yti29 .b2 7.10 1.03 8541.46 1.14 9023.40 0.8% 5.43 8546.14 5.82 9020.55 6.02 0.11 0540.49 0.17 9022.33 -0.20 5.43 0546.14 5.82 9028.55 6.02
-0.43 8539.91 -0.41 902L.7? -0.75 1.1% 8541.63 1.31 9S23.60 1.15 3.37 8543.91 3.65 9826.29 3.76 2.1% 8542.10 2.3% 9%24.%7 2.34 4.37 0545.04 4.12 9827.4% 4.95
3:xX: . 7104.64 7104.92 7103.26 7103.54 7102.80
1.82 7657.42 -0.02 7655.4%
3.37 7659.03 3.65 7659.32 1.9% 7657.5% 2.26 1657.07 1.53 7657.10
1.97
2: 3.07 2.13 2.42 1.66
8542.4% 2.16 9824.b2 2.10 0540.3% 0.06 9822.25 -0.2% 8544.16 3.84 9826.46 3.93 8544.47 4.15 9826.79 4.26 8542.62 2.30 9824.74 2.22 8542.93 2.61 9825.07 2.55 8542.12 1.80 90L4.19 1.66
TABLE I. L X-Ray Satellite Energies of 65Tb, &IO, ,,,Yb, and ,4W (in eV) See page 387 for Explanation of Tables
TERBIUM 2165 IKILMIUH L-b7 YTTERBIUN L-70 7UNliSTEN z-74
TRANSITION EhEAW SHXFT ENERGY SHIF7 EWERGV SHIFT
LlN6 2 - lvbN3 1 LlN6 2 - N6H3 2 LlN6 2 - N6M3 3 LlN6 3 - NbH3 2 LlN6 3 - N613 3 LIN6 3 - h6113 4 Llh7 3,- N7U3 2 LlN7 3 - N7H3 3 Llh7 3 - N7M3 4 L1N7 4 - N7M3 3
LlN7 4 - h7W3 4 Llh7 4 - hlM3 5 LlWl 0 - It1114 2 LlWl 1 - MM4 1 LlWl 1 - MlH4 2 LlM2 0 - 112114 2 LlM2 1 - M2ns 1 LlH2 1 - Mm4 2 LlM3 1 - run4 1 LlM3 1 - Mm4 2
LlN3 1 - rum 3 LLt43 2 - n3m 0 LlM3 2 - n3n4 1 L11(3 2 - n3n* 2 LlN3 2 - n3ti 3 LlM4 1 - H4H4 2 LlM4 2 -Mm40
7090.65 -2.63 7652.73 -2.72 0537.41 -2.91 7899.99 -1.28 7654.14 -1.30 8530.93 -1.39 7101.53 0.26 7655.79 0.34 0540.73 0.41 7100.02 -1.25 7654.10 -1.27 0530.97 -1.35 7101.56 0.29 7655.82 0.37 8540.77 0.45 7c49.10 -2.17 7653.20 -2.25 0537.91 -2.41 7c97.70 -3.50 7651.40 -4.05 0536.27 -4.05 7100.80 -0.47 7654.70 -0.75 0539.06 -0.46 7100.53 -0.75 7654.39 -1.06 0539.51 -0.01 7100.76 -0.51 7654.66 -0.79 8539.01 -0.51
E-3 . 1466.53 7450.80
:t;x . 7440.20 7475.19 7455.89 1463.78
-0.79 7654.35 -1.10 0539.46 -0.06 -0.60 7654.58 -0.07 0539.75 -0.57 27.07 8039.00 29.54 0951.96 32.00 12.13 8022.40 12.93 0934 .oo 14.12
5.17 0015.16 5.70 0926.34 6.46 34.04 8045.42 35.95 8958.75 30.07
9.61 0019.99 10.52 0931.70 11.90 36.52 8040.01 30.55 0961.53 41.65 17.22 0027.71 18.25 0939.64 19.75 25.11 0035.90 26.43 0940.27 20.39
7455.45 lb.70 7453.37 14.70 7451.44 12.70 7459.33 20.66 7451.00 12.34 7450.04 19.37 7444.02 6.15 7463.79 25.13 7456.95 10.28 7460.42 21.75
8027.25 0025.04 8023.00 0031.26 8022.61
:oOz- tX . 8035.99 8020.72 8032.34
17.70 15.50 13.62 21.80 13.15
‘i!=Z 26153 19.26 22.00
0939.14 19.25 0936.74 16.85 0934.72 14.03 0943.35 23.47 8934.22 14.34 0942.13 22.25 8927.50 7.62 u940.40 20.59 0940.53 20.65 0944.39 24.50
LlMC 2 - n4u4 2 LlM5 2 - NW4 1 LlM5 2 - M5M4 2
LlU5 2 - Ion4 3 LlM5 2 - #!a4 4 LlM5 3 - U5N4 1 LlM5 3 - n5H4 2 L1115 3 - nsli4 3 L1115 3 - M5RC 4 ~lN1 0 - hlll4 2 Llhl 1 - NlH4 1 Llhl 1 - hlI44 2 LlN2 0 - N2M4 2
LlN2 1 - N2M4 1 LlN2 1 - h2H4 2 LlN3 1 - N3l+4 1 LlN3 1 - N?A4 2 LlN3 1 - 113114 3 Llh3 2 - h3M4 0 LlN3 2 - N3M4 1 LlN3 2 - h3)H 2 LlN3 2 - N3M4 3 LlN4 1 - NM4 1
LlN4 1 - N4M4 2 LlN4 1 - N4W4 3 LlN4 2 - N4W4 0 LlN4 2 - h4u4 1 LlN4 2 - N4M4 2 LlN4 2 - h4M 3 LlN5 2 - N5M4 1 LlN5 2 - N5M4 2 LlN5 2 - h5M4 3 LlN5 2 - N5M4 4
LlN5 3 - h5M 1 LlNf 3 - NM4 2 LLNS 3 - h.9644 3 LlN5 3 - h5H4 4 LiN6 2 - N6NC 1 Llti6 2 - N6M4 2 LlN6 2 - NbH4 3 LlN6 2 - k6Lw4 4 LlN63-NbH41 LlN6 3 - h6n4 2
Lltt6 3 - ~bW4 3 LlN6 3 - N6M 4 LlN7 3 - N7M4 2 LlN7 3 - N7& 3 LlN7 3 - N7H4 4 LlN7 3 - lv7M 5 ~lN7 4 - N71(4 2 LlN7 4 - hllu 3 LlN7 4 - ml44 4 LlN7 4 - N7lU 5
Lllll 0 - W&1)5 2 LlMl 1 - Wl(15 2 Lllll 1 - H1M5 3 LlH2 0 - Mm5 2 LlM2 1 - M2llS 2 LlM2 1 - 112(15 3 LlU3 1 - 113115 1
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of 65Tb, aTHo, ,,,Yb, and 74W (in eV) See page 387 for Explanation of Tables
7460.60 29.93 0040.86 31.40 0953.41 33.53 7456.40 17.73 802%. 15 10.69 0939.94 20.06 7448.61 9.95 0020.06 10.60 0931.40 11.52 7452.09 13.42 0023.69 14.22 0935.25 15.37 7460.27 21.60 8032.20 22.74 0944.20 24.39 7448.07 9.40 0019.50 10.03 0930.81 10.93 7443.10 4.51 0014.39 4.92 0925.39 5.51 7439.37 0.71 8010.37 0.90 0921.03 1.15 7430.61 -0.06 0009.57 0.10 0920.19 0.30 7441.02 3.15 8013.01 3.55 0923.91 4.03
7440.19 1.53 0011.31 1.05 0922.11 2.22 7442.32 3.65 0013.53 4.07 0924.4t 4.59 7440.83 2.17 0011.08 2.42 0922.64 2.76 7442.07 4.20 8014.00 4.54 0924.07 4.99 7440.59 1.92 8011.63 2.11 0922.313 2.49 1430.70 0.03 8009.66 0.20 0920.20 0.40 7439.96 1.29 0010.97 1.51 0921.61 1.79 7441.99 3.32 0013.00 3.62 0923.90 4.02 7439.71 1.05 8010.72 1.26 0921.40 1.52 7443.32 4.66 0014.40 5.02 0925.39 5.51
7437.43 7443.32 7432.46 7444.27 7430.30 1444.27 7439.41 7441.09 7442.57 7440.06
-1.24 4.66
-6.20 5.61
-0.20 5.61 o.t4
‘3-z: . 1.39
0000.33 -1.13 0910.06 -1.03 8014.40 5.02 0925.39 5.51 8003.13 -6.33 0913.32 -6.57 00 15.40 6.02 0926.46 6.57 0009.33 -0.13 8919.92 0.04 8015.40 6.02 0926.46 6.57 8010.37 0.91 0921.00 1.12 0012.13 2.67 0922.01 2.99 8013.60 4.22 0924.52 4.63 0011.05 1.59 0921.72 1.04
7430.02 -0.64 0008.93 -0.54 0919.46 -0.42 7439.71 1.54 8010.69 1.22 0921.33 1.45 7441.19 2.52 0012.23 2.77 0922 .¶8 3.09 7430.67 0.01 0009.61 0.14 0920.19 0.30 1434.92 -3.74 8005.61 -3.05 0915.03 -4.05 7430.72 0.05 0009.66 0.20 0920.25 0.36 7436.95 -1.71 0007.76 -1.70 0910.15 -1.73 7439.75 1.00 00 10.77 1.31 0921.47 1.59 1434.s5 -3.71 0005.65 -3.82 0915.0t -4.02 743 0.75 0.00 8009.69 0.23 0920.29 0.40
7436.98 7439.70 7436.32 7437.03 7430.77
:t;t-t 7431179 7438.73 7436.65
-1.60 1.11
-2.34 -0.03
0.10 -1.97 -2.30 -0.07
-::iE
0007.79 0010.00 8OO7.10 8OO8.70 8009.69 0007.49 8007.Ob 8008.65 0009.64 0007.44
-22 . -2.36 -0.77
-;:z -2.40 -0.01
0.18 -2.02
0910.19 -1.70 8921.51 1.63 8917.46 -2.42 8919.10 -0.70 0920.25 0.37 8917.07 -2.01 0917.41 -2.47 0919.13 -0.75 0920.20 0.32 0917.62 -2.06
7499.12 25.20 0073.09 7476.43 2.50 uos2.05 7406.97 13.05 BOb3.02 7494.36 20.43 8070.91 7496.83 22.91 0073.51 1492.02 10.10 0068.50 7478.12 4.19 8053.05
26.62 2.70
13.73 21.65
:?ff . 4.58
8996.26 20.01 0970.64 3.19 0902.26 14.01 8990.97 23.52 0993.75 26.30 0988.43 20.98 0972.61 5.16
389
TUNGSTEN Z-74
ENERGY SHIFT
9810.66 -3.07 9020.51 -2.02 9822.77 0.25 9020.5b -1.97 9622.b2 0.30 J(rl9.23 -3.30 9017.10 -5.42 9dZ1.67 -0.85 9921.16 -1.37 9821.61 -0.92
962 1.09 -1.44 9821.61 -0.92
lU70.96 34.95 lO251.08 15.01 10242.84 6.03 102 18.25 42.24 10249.16 13.15 10281.28 45.27 lOZ57.11 21.10 102bb.34 30.33
10256.57 20.56 10253.90 17.09 10251.81 15.00 10261.04 25.03 LOL51.26 15.25 1g2*9.%b 23.05 10244.07 0.06 10266.64 30.63 10257.79 21.78 10261.95 25.94
1027 1.64 35.63 10257.17 21.16 AOZ4fhO(I 12.07 10252.24 lb.23 10261.93 25.Y2 10247.4b 11.45 10241.01 5.00 10ZJb.91 0.90 10235.90 -0.03 10240.19 4.10
10230.21 2.20 10L4o.w 4.01 10238.73 2.72 10241.16 5.15 1023U.44 2.43 10236.15 0.14 10237.66 1.65 lOL4o.OY 4.00 10237.37 1.36 10241.67 5.06
10234.57 -1.44 10241.07 5.86 102L0.3Y -7.b2 10243.06 7.05 10235.76 -0.25 10243.06 7.05 10236.94 0.93 lOL39.02 3.01 lOL40.04 4.03 IOZd7.74 1.73
lO235.22 -0.79 lOL37.30 1.29 LJZdY.A> 3.12 102JC.03 0.01 AOZJO.SII -5.44 1023b.22 0.21 lJ233.44 -2.57 AO237.05 1.04 10230.63 -5.30 10236.27 0.26
10233.49 -2.52 10237.91 1.90 10232.67 -3.35 lO234.00 -1.21 lO23b.16 0.15 10233.16 -2.05 10232,bO -3.41 10234.73 -1.20 10236.09 0.00 10233.OY -2.92
10330.23 31.59 Aaroz.lr 3.47 10314.63 15.99 10324.49 25.86 10327.52 20.00 10321.79 23.15 10304.2Y 5.65
390
TAAhsl~lON LNEUGY SWIFT ENEil0Y SHIFT ENERGY SHIFT ENERGY SHIFT
LlM3 1 - MM5 2 LlW3 1 - loll5 3 L1113 2 - runs 1 LlM3 2 - lull 2 LlM3 2 - H3IS 3 LlH3 2 - 031(5 4 LA114 1 - MDl5 1 L1114 1 - lwls 2 LlM4 A-041153 LlbM 2 - ma5 1
LlM4 2 - M4l45 2 LlW4 2 - mlls 3 Ll04 2 - a#s 4 LlWS 2 - am5 0 LItiS 2 LlMS 2 I gs; t
LAMS 3 - MM5 2 LlMS 3 -am54 LlNl 0 - NAM 2 LlNl 1 - UN5 2
LINl 1 - NM5 3 LlN2 0 - N21(5 2 LlN2 1 * 112115 2 LlN2 1 - N2(15 i LiN3 1 - N3l45 1 Llh3 1 - N3M 2 LAN3 l - h3Ms 3 LlN3 2 - N33115 1 LlN3 2 - kflls 2 LlN3 2 - NNIS 3
LlN3 2 - N3u115 4 LlN4 1 - N4115 1 LlN4 1 - N4I45 2 Ll114 1 - NM5 3 LlN4 2 - 0405 1 LlN4 2 - NW5 2 LlN4 2 - WMS 3 LlN4 2 - N4MS 4 LlN5 2 - HSMS 0 LlNS 2 - NSMS 1
LlN5 2 - N5W5 2 LlNS 2 - NSMS 3 L&N5 2 - US115 4 LAN5 3 - kSM5 1 LlNS 3 - NW5 2 LlN5 3 - NSIIS 3 Llh5 3 - hsM5 4 LlN5 3 - NSlt5 5 LlN6 2 - MU5 0 L&N6 2 - h6M5 1
LlN62-N6H52 LlN6 2 - 116115 3 LAN6 2 - N6m5 4 LlN6 3 - hbM5 1 LlN6 3 - h6M5 2 LlN6 3 - ml5 3 LlN6 3 - kW5 4 LlN6 3 - h6115 S LlN7 3 - 117115 1 LlN7 3 - N7115 2
LlN7 3 - h7MS 3 LlN7 3 - N7115 4 LlN7 3 - N7U5 5 Llh7 4 - N7lt3 2 iiN 4 - 117115 3 LlN7 4 - N7M5 4 LlN7 + - N715 5 LlU7 4 - N7HS 6 LlWl 0 - NlN2 1 L&Ml 1 - WlN2 0
LlHl 1 - MlN2 1 Lln2 O- n2N2 1 Ll112 1 - M2Nt 0 Llk? 1 - M2N2 1 LlW3 1 - IuN2 1 LlM3 1 - 113N2 2 LlM3 2 - M3U2 1 LlM3 2 - lt3N2 2 llfl4 1 -MN21 LlM4 1 - MN2 2
LlM4 2 - MN2 1 I.1114 2 - MN2 2 LlMS 2 - llSN2 2 LlllS 2 - MSN2 3 LlH5 3 - MSN2 2 LlM 3 - MSN2 3 LlNl 0 - NlN2 1
7401.13 27.80 aOl0.34 29.07 8990.41 30.96 10331.n5 7406.26 12.33 aO62.33 13.07 8981.60 14.15 10313.96 7473.67 -0.25 8049.22 -0.05 8967.69 0.24 l(uY&.98 7497.28 23.36 6073.70 24.44 8993.50 26.01 10326.55 7401.01 7.89 0057.70 6.43 8976.69 9.23 10308.66 7506.51 32.56 8003.24 33.97 9003.10 36.05 10337.19 7466.10 12.17 0062.19 12.93 8981.49 14.01 10313.88 7409.57 15.65 6065.81 16.55 8985.34 17.89 10310.03 7491.75 23.03 0074.33 25.07 8994.37 26.91 10327.73 7491.06 17.93 6060*)9 10.92 0987.04 20.30 10320.65
33.22 15.33
0.35
:x*oQ: ;$:i
. 19.40 29.09 22.02
1495.33
‘1x: 1471145 7494.06
:::z f 1493:35 7470.30 1473.72
21.40 8071.61 22.55 6991.69 24.24 103L4.01 26.17 29.56 8000.33 31.06 9000.71 33.26 10334.50 35.87 17.38 8067.62 10.36 8901.24 19.79 10320.03 21.39
3.53 8053.03 3.77 8971.52 4.07 10302.80 4.16 to.93 8071.16 21.09 0990.72 23.27 13323.42 24.78 27.76 8078.26 29.00 8998.25 30.80 AU331.51 32.07 12.60 8062.50 13.23 0Y01.59 14.14 10313.71 15.07 19.43 6069.60 20.34 0969.12 21.67 1032S.7Y 23.16
4.31 8053.94 4.67 8912.55 5.10 10304.07 5.44 -0.20 8049.12 -0.15 0961.34 -0.11 lO296.25 -0.39
1474.89 0.97 aosO.33 7476.42 2.50 8052.03 7476.92 3.00 8052.55 7476.34 2.41 8051.94 7473.70 -0.22 80499.11 1471-58 3.66 8053.14 7477.37 3.45 0052.93 7472.83 -1.10 8040.20 7476.71 2.78 6052.23 7476.50 2.57 00s2.01
1.07 2.76
22 -0.16
3.60
-Z 2.96 2.75
8968.63 1.16 1O299.b6 1.02 8910.50 3.05 10301.03 3.20 0971.07 3.62 10302.46 3.83 8970.41 2.96 10301.74 3.10 0967.35 -0.10 10290.33 -0.31 8971.62 4.16 10302.98 4.34 6971*40 3.94 153O2.7k 4.10 6966.38 -1.07 iO297.25 -1.38 8970.64 3.19 103UI.90 3.27 8970.42 2.Y7 10301.67 3.03
7476.54 2.62 0052.05 2.79 6910.45 3.00 10301.69 3.05 7473.60 -0.32 8440.99 -0.28 8967.20 -0.25 10290.16 -0.48 7475.36 1.44 6050.83 1.57 8969.11 1.72 10300.3b 1.72 7476.89 2.97 8052.44 3.17 0970.60 3.43 103O2.27 3.63 7474.55 0.63 8049.99 0.72 0966.26 0.81 10299.35 0.71 7476.31 2.39 0051.83 2.57 8970.24 2.79 10301.55 2.91 7477.65 3.92 0053.43 4.17 6971.95 4.50 10303Ab 4.02 7475.24 1.31 6050.70 1.44 8969.03 1.58 10300.20 1.57 7466.93 -7.00 8042.02 -7.25 0YSY.78 -7.67 IO209.0b -0.71 7479.03 5.10 8054.63 5.36 8973.16 5.71 103Ok.lb 4.13
7472.12 7480.09 7474.29 7477.64 7470.73 7479.50 7472.90 7478.16
K-f: .
7472.85 7413.54 7474.05 747 1.27 7472.80 7413.57 7474.08 7471.YS 746Y.73 7472.63
-1.81 8047.44 6.96 8056.58 0.37 8049.71 3.12 8053.18
-3.19 aO45.99 5.58 8055.13
-1.02 8040.26 4.24 8053.73
-3.00 now.14 -2.66 8046.46
-1.03 7.31 0.44 3.92
-3.27 5.06
-1.01
-::zi -2.M)
0965.55 -1.90 10296.30 -2.34 0975.24 7.18 lJ301.0b 0.42 8967.97 0.51 1OLY1).90 0.35 0971.62 4.17 15303.05 4.41 0964.02 -3.44 AOZY4.50 -4.06 6913.70 6.24 10305.35 6.71 0966.43 -1.02 10297.21 -1.37 6972.20 4.75 103U3.bY 5.05 09b4.00 -3.37 lOL94.2) -4.41 8964.43 -3.02 lO294.62 -4.02
-1.08 -0.38
0.13 -2.65 -1.05 -0.35
0.16 -1.98 -4.20 -1.09
0040.17
%z . 804b.50 8040.2l 0048.94 8049.49 6047.21 6044.04 8040.15
-1.09 0966.29 -1.16 30296.91 -1.67 -0.36 6967.06 -0.37 10291.95 -0.69
0.19 8967.60 0.23 10298.7L 0.07 -2.77 0964.47 -2.99 10294.67 -3.97 -1.06 8966.33 -1.12 1O297.02 -1.61 -0.33 8967.12 -0.33 102Y0.00 -0.64
0.22 8967.72 0.27 10290.76 0.12 -2.05 8965.25 -2.21 10295.65 -2.99 -4.43 0962.66 -4.79 10292.31 -4.33 -1.11 0966.27 -1.18 102YI.Yb -1.68
747 1.07 -2.05 8047.11 7415.27 1.35 8050.74 7471.80 -2.04 0047.12 7472.79 -1.13 0040*11 747 1.03 -2.09 8047.07 i475.23 1.31 6050.70 747 1.04 -2.08 0047.07 7475.05 1.13 0050.53 8441.16 55.61 9102.71 6419.39 33.04 9079.84
-2.15
-kE -1.15 -2.19
1.43 -2.19
1.26 57.67 35.00
0965.12 -2.33 102Y5.3U -3.25 6969.08 1.63 10300.53 1.09 8965.11 -2.34 io295.3* -3.30 8966.22 -1.23 10296.90 -1.74 BYbS .07 -2.30 10295.32 -3.32 6969.03 1.58 LO300.46 1.02 8965.06 -2.39 10295.21 -3.37 8968.87 1.42 AO300.36 1.73
10155.45 61.37 11676.12 67.19 10130.06 36.70 ii64Y.13 40.21
8418.46 32.91 9078.61 34.03 0434.54 49.01 9095;09 51.05 6420.45 42.90 9009.40 44.64 0437.03 51.46 9096.48 53.65 0431.44 45.89 9092.32 47.49 6430.65 45.10 9091.49 46.66 0427.00 41.45 9007.69 42.85 8426.21 40.65 9006. n6 42.02 8432.31 46.76 9093.37 48.53 6434.44 48.00 9O95.59 so.75
10129.83 10148.31 10141.42 10151.06 10143.97 10143.08
:Oo:x: 10145:20 10147.65
35.75 11640.00 39.07 54.23 Ub60.62 59.70 47.35 AA6bO.92 51.99 57.01 11671.65 62.72 49.89 11642.93 54.01 49.00 11661.95 53.03 44.97 11457.63 48.70 44.00 11656.65 47.72 51.20 11664.62 55.69 53.57 11667.26 so,30
0438.07 52.52 9099.37 54.53 10151.62 57.54 11671.39 62.47 8440.19 54.64 9101.59 56.75 10153.99 59.91 11614.01 65.00 8439.89 54.34 9101.14 56.30 10153.28 59.20 11612.19 b3.07 8439.30 53.75 9100.53 52.69 10152.63 58.55 llb72.07 63.14 8431.56 46.00 9092.40 47.64 10144.15 50.07 11bb3.OL1 54.15 6430.97 45.42 9091.87 47.03 10143.50 49.42 11662.36 53.43 0395.96 10.39 9055.61 10.77 10105.42 11.34 11621.79 12.86
F. PARENTE et al. L X-Ray 8atellite Energies
TABLE I. L X-Bay Satellite Energies of asTb, #,Ho, ,OYb, and ,4W (in eV) See page 387 for Explanation of Tables
YllER61W 2170 7ERBIW 2-65 HoL)Iw4 Z-67 TUNESTEN L=74
TRANSITION ENERGY SHIFT ENERGY SHIFT LNER6Y SHIFT
LAN1 1 - NlNZ 0 Lllsl 1 - NlN2 1 1lNt 1 - N2N2 0 LlN3 1 - N3N2 1 LlN3 1 - WN2 2 LlW 2 - N3N2 1 LlN3 2 - N3NL 2 LlN4 1 - WIN2 1 LlN4 1 - N4N2 2 ClN4 2 - NM2 1 LlN4 2 - WIN2 2 LlNS 2 - NSNP 2 LlN5 2 - N5N2 3 LlN5 3 - N5N2 2
6390*14
TV;% 8394:23 0390.65
tz-z .
“,::‘l*tz . 8386.23
12159 5.02 4.71 8.68 5.10 7.00 4.23
;:*2gt . 0.67
9057. a4 905O.79 9049.74 9053.77 9050.05 9052.86 9049. I4 90444.47 9057.16 9045.47
13.01
::Zl a.94 5.21 8.02 4.30
-0.37 12.33
0.63
10107.71 10100.21
:oD;z-fi 10099: 44 10102.40 lOO98.47 10093.56 10107.06 10094.62
13.64 6.14 5.13. 9.30 5.36 a.33 4.39
-0.52 12.90
0.54
8398.30 12.83 9050.16 13.33 10108.12 14.04 0391.74 6.19 9051.10 6.34 lOlOO. 6.63 0389.60 4.13 90499.03 4.19 10098.42 4.35 8390.35 4.80 9049.13 4.89 10099.17 5.09 0308.29 2.74 9041.58 2.74 10096.88 2.81 8303.76 -1.79 9042.94 -1.89 lOO92.00 -2.08 0387.51 1.95 9046.87 2.03 10096.10 2.11 8383.79 -1.76 9042.90 -1.86 lOO92.O4 -2.04 8387.54 1.90 9046.90 2.01 10096.22 2.14 0385.51 -0.04 9044.70 -0.06 10093.96 -0.12
LlN5 3 - k5N2 3 LlN6 2 - NIN2 2 LlN6 2 - N6N2 3 LlN6 3 - NINP 2 LlN6 3 - WN2 3 LlN7 3 - h7N2 3
LlN7 3 - N7N2 4 LlN7 4 - N7N2 3 LlN7 4 - N?N2 4 LlNl 0 - NlN3 1 LlI11 1 - MN3 1 Lllu 1 - NlN3 2 LlM2 0 - M2N3 1 LlN2 1 - WiN3 1 LlIl2 1 - n2N3 2 LlR3 1 - &IN3 0
LlN3 1 - M3N3 1
::",: : - - n3N3 IUN3 2 1 LlM3 2 -mN32 LlM3 2 - M3N3 3 L184 1 - M4N3 0 LlW4 1 - MN3 1 Llll4 1 - n4N3 2 LlU4 2 - MN3 1 LlR4 2 - PHN3 2
LlM4 2 - n4N3 3 LlM5 2 - 1(5N3 1 LlR5 2 - H5N3 2 LlN5 2 - H5N3 3 LlM5 3 - N5N3 2 LlM5 3 - 115N3 3 LlH5 3 - R5N3 4 LlNl 0 - NlN3 1 Llhl 1 - NlN3 1 LlNl 1 - MN3 2
LlN2 0 - N2N3 1 LlN2 1 - N2N3 1 LlN2 1 - N2N3 2 LlN3 1 - N3N3 0 LlN3 1 - k3N3 2 LIN3 2 - N3N3 2 Llh4 1 - N4N3 0 LlN4 1 - hZN3 1 LlN4 1 - NIN3 2 LlN4 2 - N4N3 1
LlN4 2 - N4N3 2 LlN4 2 - N4N3 3 LlN5 2 - N5N3 1 LlN5 2 - N5N3 2 LlN5 2 - N5N3 3 LlN5 3 - N5N3 2 Llk5 3 - N5N3 3 LlN5 3 - N5N3 4 LlN6 2 - N6N3 1 LlN6 2 - MN3 2
LlN6 2 - N6N3 3 LlN6 3 - WN3 2 LlN6 3 - N6N3 3 LlN6 3 - N6N3 4 LlN7 3 - N7N3 2 LlN7 3 - N7N3 3 LlN7 3 - N7N3 4 LlN7 4 - N7N3 3 LlN7 4 - N7N3 4 LlN7 4 - N7W 5
LlI(1 0 - MlN4 2 Llnl 1 - MlN4 1 LlMl 1 - RlN4 2 LlR2 0 - R2M 2 LlM2 1 - luN4 1 Llllt 1 - N2N4 2 11113 1 - 113N4 1
F. PAREMTE et al. LX-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of aJTb, 67Ho, ,oYb, and ,IW (in eV)
TERaIUII 2165 HoLMIun 2-67 ITTLR0IUR 2q70
8304.46 -1.10 9043.60 -1.16 0385.47 -0.08 9044.73 -0.10 0304.42 -1.14 9043.63 -i.zo 0470.57 55.88 9144.76 50.06 0455.88 33.10 9120.92 34.22 0457.76 35.06 9122.08 36.18 8469.60 46.91 9135.45 40.75 0472.08 49.38 9130.01 51.34 8471.32 40.62 9137.25 50.55 0460.08 38-19 9126.07 39.37
%',f ' :: lOO92:74 lO2D5.69 10100.07 10182.15 10195.85 10190.63 10197.79 10185.40
-1.29 -0.17 -1.34 61.46 35.85 37.93 51.63 54.41 53.57 41.10
0472.32 49.63 0467 022 44.53 8467.80 45.10 04t2.70 40.08 0467.00 45.18 0469.89 47.19 0471.15 40.46 0473.18 50.49 8476.91 54.21 8470.94 54.25
t:;z 9133:36 9128.04 9133.36 9135.61 9136.92 9139.03 9142.91 9145.03
51.29 10198.03 53.81 45.97 10192.38 40.16 46.66 10193.11 40.89 41.34 10107.47 43.25 46.66 10193.11 40.89 4a.w) 10195.72 51.M 50.22 10191.11 52.89 52.33 10199.34 55.12 56.21 10203.45 59.23 58.33 10205.69 61.47
0476.66 53.97 9142.46 55.9’6 10203.19 58.97 0474.07 52.17 9140.67 53.97 10200.87 56.65 8470.75 56.05 9144.71 58.00 10205.13 60.91 8478.54 55.04 9144.49 57.79 10204.91 60.69 047C.42 47.72 9136.05 49.34 10195.99 51.77 847C.21 47.51 9135.83 49.13 10195.77 51.55 0470.25 47.55 9135.87 49.17 10195.80 51.50 0426.99 4.29 9091.02 4.32 10148.60 4.38 0422.41 -0.20 9086.20 -0.50 10143.40 -0.83 8435.51 12.01 9099. a3 13.12 10157.81 13.59
8431.93 9.24 9096.23 9.52 0432.43 9.74 9096.r5 IO.05 0420.05 6.16 9093.03 6.33 8422.94 0.25 9006.17 0.07 0430.00 7.31 9094.12 7.42 8429.13 6.43 9093.20 6.50 8427-W 5.06 9091. a1 5.11 8426.33 3.63 9090.33 3.63 8429.64 6.H 9093.70 7.08 8427.20 4.59 9091.33 4.63
10154.11 10154.67 10150.74 10144.02 10151.78 10150.81
:::t’,-if 10151:40 10140.09
9.89 10.45
6.52 -0.20
7.56 6.59 5.17 3.60 7.26 4.67
0430.59 7.90 9094.78 8.00 0427 .A9 4.50 9091.23 4.53 0421.27 -1.42 9085.09 -1.61 8431.72 9.02 9095= 97 9.27 0424.04 1.35 9087.90 1.28 0430.33 7.64 90%. 52 7.02 8422.66 -0.04 9006.53 -0.17 0435.03 12.34 9099.42 12.72 8421.27 -1.42 9005.12 -1.58 0422.51 -0.10 30066.42 -0.28
:::tt -5: . 10142.30 10153.83 10145.37 10152.29
::::?:2 10142:36 10143.75
a.33 4.57
-1.92 9.61 1.15 0.07
-0.39 13.25 -1.86 -0.47
0424.05
:t’z:-3; 8421125 0418.77 8423.82 8422&O 0423.70 0422.54 0424.M
2.15 -0.15
2.18
I:';2' . 1.13
-0.09 1.09
-0.13 1.80
9080.86 2.16 9006.45 -0.25 9000.90 2.20 9005.09 -1.61 9002.51 -4.19 9087.79 1.09 9006.52 -0.10 9007.75 1.05 9006.40 -0.23 9080.49 1.79
:::t",*gJ 10146:39 10142.34 10139.60 10145.22 10143.07 10145.17
:",:t3*:5' .
10350.09 10332.98 10332.47 10347.67 10349.00 L0350.45 10345.68
2.13 -0.43
2.17 -1.00 -4.62
-i:z 0.95
-o&c 1.73
8606.03 8583.79 8503.33
::g’t*5: . 8599.01 0595.40
56.96 9201.93 59.20 34.73 9250.50 35.05 34.27 9250.09 35.36 47.47 92 72.01 49.34 48.64 9273.31 50.50 49.94 9274.67 51.94 46.42 9270.60 47.95
62.69 11915.69 68.87 37.59 11060.15 41.33 37.01 11907.57 40.75 52.20 11904.56 57.74 53.61 11905.97 59.15 55.06 llYO7.58 00.76 50.28 11901.4b 54.b4
See page 387 for Explanation of Tables
391
TUNGSTEN L-74
ENER6Y SHIFT
1ib24.11 15.19 11615.96 7.04 11615.07 6.14
x-:2" . 10.45 6.19 11610.31 9.30 11614.05 5.12 11600.85 -0.00 ILLL3.63 14.71 liblO.04 1.11 l1624.02 15.90 llbk6.64 7.71 Ubl4.14 5.21 llbi4.92 5.99 11412.42 3.50 11607.LO -1.83 11b12.06 3.14 11601.15 -1.78 11612.11 3.19 libO9.40 0.40
11608.00 -0.93 11609.34 0.41 11607.93 -1.00 ll744.86 67.69 11716.74 39.57 11719.05 41.88 11734.36 57.19 11737.39 60.22 11736.47 59.30 11722.02 44.85
11735.81 50.70 11129.b5 52-48 ll7dU.57 53.40 11724.35 47.10 11730.57 53.40 11733.6k 56.44 11735.12 57.95 11737.55 60.38 Il74i.90 64.73 11744.33 b7.16
11741.61 64.44 11730&k 61.47 11743.29 66.12 11743.05 65.88 11733.57 56.40 11733.33 56.16 11733.36 56.19 ilb112.76 5.59 11676.94 -0.23 11oq2.54 15.37
1kbaa.7j 11.56 11689.36 12.19 lLb05.10 7.93 11b77.50 0.41 l1406~00 0.03 11684.9A 7.76 11683.56 b-39 Llbcll.07 4.70 l1605.66 0.69 11683.0b 5.89
~1687.05 9.88 liblt2.94 5.77 11675.79 -1.38 A lb80.36 11.19 11679.15 1.90 11606.b5 9.40 11677.14 0.2? 11692.28 15.11 11675.91 -1.26 11677.53 0.36
LL680.5b 3.39 11677.50 0.41 11b6O.b1 3.44 lib75.88 -1.29 11672.62 -4.55 11679.21 2.05 11b77.63 0.46 11679.15 1.90 llb77.51 0.40 llb8O.Ob 2.89
392
TRAhSIlION EhERW SMIFT ENLRGV SNlt=T ENERGY SHIFT
Llfl3 L-1(3N42 I.1113 1 - UN4 3
:::f f - - n3N4 Mm4 0 1 L11(3 2 - run4 2 Llm32-mm43 ‘,::t : -MN41
-MN42
::;: : - - MN4 m m 3 0
LlM4 2 - WIN4 1 LIM4 2 * MN4 2 LlM4 2 - MN4 3 LAWS 2 - MN4 1 LllS 2 - MN4 2 Llll5 2 - MN4 3 LlMS 2 - MN4 4 LlllS 3 - MN4 1 LlIIS 3 - MN4 2 LA(I5 3 - MN4 3
LlMS 3 LlNl 0 z pN; ;
Llkl 1 - hlN4 1 LlNl 1 - WIN4 2 LAN2 0 - N2N4 2 LlN2 1 - h2N4 1 ilN21-N2N42 LlN3 1 -wN41 LlN3 1 - N3N4 2 LlN3 I - h3N4 3
LlN3 2 - N3N4 0 LAN3 2 - MN4 1 LlU3 2 - h3N4 2
t::: : - - N3~4 MN4 3 2 LlN4 2 - WIN4 0 LlN4 2 - #4N4 2 LAN3 2 - NW4 1
L% f - - NlN+ N5N4 2 3
LlN5 2 - NSWI 4
:::z f -MN41 - NW4 2
LAN5 3 - NSN4 3 Llk5 3 - NW4 4 LlNb 2 - NbN4 1 LlNb 2 - MN4 2 LlN6 2 - NbN4 3 LlNb 2 - NbN4 4 LlN6 3 - NbN4 1
Llhb 3 - wN4 2 LlN6 3 - h6N4 3 LlNb 3 -wN44
- klN4 2 - NlN4 3
:::I’ : - htN4 4 - N7N4 5
iin7 4 - hlN4 2 LlN7 4 - N7M 3 LlN7 4 - N7N4 4
Llh7 4 - N7N4 5 LlMl 0 - WlNS 2 Lllll 1 - Ml115 2 LAM1 1 - M&N5 3 LlM2 0 - 12NS 2
t:ff : - - 112115 MN5 2 3 LlM3 1 - luN5 1
',:;: : - - ll3Ns IONS 2 3
Ll)13 2 - M3NS 1 LAW3 2 - mm5 2 LlN3 2 - l3N5 3 LlM3 2 - loWI 4 Llfl4 1 -MU51 LlM4 1 -MN52 LAM 1 - mN5 3 Lll4 2 - MNS 1 LAM4 2 - MN5 2 LlM 2 - MN5 3
LlM4 2 -MN54 LAM5 2 - MN5 0 L111S 2 -lwns 1 LlMS 2 - MN1 2 Lllw 2 - M5ns 3 LINS 2 - MN5 4 LlllJ 3 - MN5 1
F. PARFNIZ et al. LX-Ray SatelliteEnergies
TABLE I. L X-Ray Satellite Energies of asTb, 6,H~, ,,,Yb, and ,,W (in eV) See page 387 for Explanation of Tables
TLRI)IUI 2-e HOLHI uw Z-67 rTTERBIlH4 2-70
aso~.sl 40.50 9272.67 50.14 11595.21 46.22 9270.4% 47.75 8569.50 40.43 9264.44 41.71 as91.04 41.97 9266.05 43.32 8S93.12 44.06 9268.24 45.51 8590.84 41.77 9265.94 43.11 (l601.75 52.69 9277.37 54.64 as9s.e6 46.60 9271.22 48*49 8601.75 SZ.69 9277.37 54.64 8591.70 46.63 9271.02 48.29
10348.02 10345.46 10339.04 10340.76 10343.10
Ez-9': 10346:45 10352.96 10346.18
3x-z . 43.64 45.36 41.70 45.14 57.59 51.05 57.59 so.79
8607.51 0601.62 ebo7.51 BbOZ.ee 1604.64 abob. 8603.56 0594.5s 8S96.31 a397.(14
56.45
;:*ir sa:n 55.s1 57.11 54.50 45.48 47.24 46.70
9213.36 60.63 9277.21 54.49 9283.36 60.63 9279.40 35.69 9290.25 57.52 9211.85 59.12 9279.12 56.39 9249.75 47.02 9271.59 48.86 9273.19 50.47
0595.23 46.11 9270.4b 47.73 6557.70 8.71 9231.70 a.97 65Sb.57 7.50 9230.39 7.66 8553.21 4.14 9226.88 4.15 8563.25 14.18 9237.47 14.74 8551.59 2.52 9225.30 2.57 85b3.74 14.68 9237.99 15.2b 8554.44 5.38 9220.18 5.45 3557.75 8.69 9231.63 a.90 6554.35 5.29 9228.09 5.36
10359.33 10352.79 10359.33 10353.e3 10355.81 10317.52 10354.60 10344.70
::;:t-t; .
1034s.47 10304.75 10303.27 10299.54
iii:?: 103u:47 10300.94 10304.60 10300.94
63.93 57.40 63.93 9.44 60.41 62.12 59.20 49.30 51.26 52.99
50.07 9.36 7.86 4.15
15.52 2.58
16.08 5.55 9.21 5.45
8555.00 3553.57 a%b.ee 8553.48 6554.90 8549.33 e555.es 8553.05 (L554.16 8156.94
5.93 4=50 7.81 4.41 5.83 0.21 6.79 3.96 5.09 1.a7
99ff? I: . 9230.72 9227.18 9228.70 9222.09 9229.70 9226.80 9227.96 9230.86
6.03 4.54 7.99 4.45 5.97 0.16 6.97 4.07
‘s-:3 .
3.74 2.62 3.78 6.60 2*30
-5.44 3.14
-2.94 6=78
-5.41
10301.54 6.15 10299.97 4.58 10303.63 8.24 10299.87 4.4e 10301.54 6. IS 10295.37 -0.03 10302.61 7.21 10299.56 4.16 10300.7e 5.39 10303.87 0.47
8552.74 3.67 2551.67 2.60 0552.77 3.71 8555.55 6.49 8551.35 2.29 8143.91 -5.15 8552.11 3.05 8346.40 -2.67 ems.59 6.52 6543.94 -5.12
E$-;; 922bkl 9229.41 9225.03 9217.29 9225.07 9219.89 9229.51 9217.32
10299.21 10298.02 10299.25 10302.33 10297.67 10289.45 10298.64 10292.28 10302.49 10289.49
3.82
f l “,f 6:94 2.28
-5.94 3.25
-3.12 7.09
-5.90
8S52.14 3.08 9225.91 0546.43 -2.64 9219.93 as55.u 6.36 9229.54 8547.26 -1.01 9220.60 6549.21 0.14 9222.84 8550.95 1.88 9224.66 6547.33 -1.73 9220.88 m47.22 -1.85 9220.76 8549.17 O*lO 9222. SO a550.91 1.84 9224.62
3.16 -2.90
6.81 -1.93
0.11
-::z
-t-s 1:s9
10298.68 3.28 10292.32 -3.0% 10302.53 7.13 10293.24 -2.16 10295.42 0.02 10297.35 1.96 10293.32 -2.07 10293.19 -2.21 10295.37 -0.03 10297.30 1.91
0547.29 -1.77 9220. e3 -1.90 10293.27 1619.07 57.45 9293.50 59.50 10367.27 (1396.37 34.76 9269.66 35.66 10341.65 1597.04 35.42 9270.35 36.36 10342.38 L)609.27 47.66 9293.33 49.33 10316.52 8611.75 50.14 9285.92 51.93 10359.30 6611.36 49.77 928% s4 51.54 10358.89 3604.46 44.85 9290.09 46.10 10352.5b a609.65 4e.23 9283.63 49.64 10356.33 ab10.13 46.N 9293.92 49.93 10356.64
L602.02 0605.40 eta.66 8604.95 8609.90 a611.58 6613.06 6615.65 8617.34 0616.62
40.40 43.79 44.06 43.33 46.26 49.97 51.45
2::: 51.20
92 75.46 9279.00 9279.29
xi” Ii 928s: 111 9261.12 9269.81 9291.51 9293. It
411% 45.00 45.30
Z:Z Sl.sa 53.13 5S.U 57.5~ 59.u
10347.64 10351.42 10351.73 10350.91
3:;3:=3; ;;;3:2$
::%h .
10363.79 10354.55 L0367.92 10360.32 10370.00 10362.73 10358.79
-2.12 62.76 37.14 37.0s 52.01 54.79 54.30 46.05
3:‘:: .
f Z-:: 47122 46.41 52.21 54.09 55.73 5n.56 60.43 62.01
a616.30 6400.27 a62O.36 8613.4b 8622.22 6t13.63 eb12.03
54.69
$=“r3 . 51.84 60.61 54.01 50.42
9290.49 56.50 9211.99 47.99 92%.60 60.61 9217.41 53.u 9296.55 62.55 92m.68 55.66 9215.94 51.95
59.26 50.04 63.42 55.61 65.49 58.22 54.29
7UNGSlEN t=74
ENERGY SHIFT
IlYM.U7 57.25 11901.22 54.40 11694.2b 47.44 11896.16 49.34 U096.77 51.95 IIOYS.92 49.09 11909.90 62.90 119U2.50 55.68 11909.80 62.98 11901.91 55.09
Ai916.56 69.76 11909.2U 62.46 11916.56 69.76 lL9lO.OA 63.19 119A2.21 65.39 11914.11 61.29 A19lO.U6 64.04 11900.30 53.47 Al902.49 55.67 11904.40 57.50
LlYOl. 15 54.33 llU57.73 10.91 11655.99 9.17 llU51.9U 5.08 llW4.52 17.70 ll1150.37 3.55 UY65.15 18.33 11853.41 6.59 li657.3‘) 10.51 11853.LY 6.47
ll854.03 7.21 11852.33 5.51 LL656.32 9.so 11652.21 5.39 11654.2* 7.42 lld41.46 0.64 11e55.43 0.61 11e52.01 5.19 llUSJ.36 6.54 11856.75 9.92
l1851.6L 4.80 AlYSO.29 3.47 11U51.64 4.82 11655.03 a.21 11649.91 3.09 llY40~74 -6.08 11851.44 4.62 llb44.07 -2.7s 11855.90 9.08 11040.79 -6.03
11851.49 4.67 lle44.u -2.70 11655.95 9.13 llU45.12 -1.70
::',tt-;X lle455:20
0.83 3.14 -1.62
llU45.04 -1.76 11847.61 0.79 11849.a9 3.07
lle*~.li -1.68 11929.21 69.20 11901.09 41.09 11901.91 41.91 11917.71 57.70 11920.74 60.73 l1920.23 60.28 A1912.42 52.42 11916.63 56.63 11916.96 56.96
11907.12 47.11 11911.33 51.32 11911.66 51.65 ll910.76 50.77 11911.26 57.25 11919.34 59.33 Ai921.16 61.16 Al924.04 64.03 11926.12 66.11 11927.94 67.93
AlY24.84 64.83 119A4.10 54.09 Al929.00 68.99 llY20.54 60.53 11931.30 71.29 ~1923.22 63.21 11919.29 59.28
393 F. PARFNTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of asTb, &lo, ,OYb, and ,4W (in eV) See page 387 for Explanation of Tables
TERBIIJN 2165 HIJUIUM Z-61 VTTERBIUN L-10 2174
lR**SI~IoN EhERGV SHIFT ENERCV WI FT ENERGV SHIFT
TUNGSIEN
ENERGY SHIFT
LlM5 3 - H5N5 2 LM5 3 - n5N5 3 L1115 3 - )15N5 4 LlM5 3 - M5N5 5 LlNl 0 - NlN5 2 LlNl 1 - WIN5 2 LlNl 1 - UN5 3 LlN2 0 - h2N5 2 LlN2 1 - )rZN5 2 LlN2 1 - N2N5 3
LlN3 1 - WN5 1 LlN3 l- N3N5 2 LlN3 1 - h3NS 3 LlN3 2 - N3N5 1 LlN3 2 - h3N5 2 LlN3 2 - N3N5 3 LlN3 2 - b3N5 4 LlN4 1 - MN5 1 LIN4 1 - h4NS 2 LlN4 1 - h4N5 3
LlN4 2 - M4N5 1 LlN4 2 - WN5 2 LIN4 2 - h4N5 3 LlW4 2 - MN5 4 LIN5 2 - MN5 0 LlN5 2 - NSNS 2 LlN5 2 - N5N5 4
t:z z - - lUN5 N5N5 2 4 LlN6 2 - k6N5 0
LlN6 2 - h6NS 1 LlN6 2 - N6N5 2 LlN6 2 - MN5 3 LlN6 2 - N6N5 4 LlN6 3 - MN5 1 LlN6 3 - MN5 2 LlN6 3 - k6N5 3 LlN6 3 - WN5 4 LlN6 3 - h6N5 5 LlN7 3 - hlN5 1
LlN7 3 - NlN5 2 LlN7 3 - h7N5 3 LlN7 3 - NIN5 4 Llh7 3 - )r7N5 5 A.117 4 - N7N5 2 LlNl 4 - h7N5 3 LlN7 4 - hlN5 4 LlN7 4 - N7N5 5 LlN7 4 - h7N5 6 LZlll 1 - Wllll 0
LZMZ 0 - N2Nl 1 L2112 1 - H2Nl 0 LZN2 I - It2111 1 L2R3 1 - M3Wl 1 LZM3 1 - W3Ml 2 LtN3 2 - R3Nl 1 L2113 2 - R3Wl 2 L2114 1 - MM11 12H4 1 - H4Hl 2 LZN4 2 - N4Hl 1
eb05.12 43.51 9278.75 44.76 8613.W 52.28 9287.89 53.89 8607.29 45.68 9281.02 41.03 8612.55 50.91 9286.49 52.49 8569-U 1.51 9241.53 7.54 8564.56 2.94 9236.71 2.72 8569.53 1.92 9241.91 7.91 8569.61 8.00 9242.04 8.05 8510.11 8.49 9242.56 a.57 8568.05 6.43 9240.42 6.42
::f%glt . 10353.60 10359.37 10312.14 10306.93 10312.44 10312.69 10313.25 10310.97
46.68 56.36 49.09 54.87
7.63 2.43 7.94 8.18 a.75 6.47
11910.62 11921.59 11913.51 11919.93 11869.26 ll663.43 11869.46 11869.92 11010.55 ll(rb8.05
50.82 61.58 53.50
‘Xf . 3.43 9.46 9.91
10.54 8.04
8561.44 -0.17 8511.89 10.27 8564.21 2.60 8560.57 -1.04 8571.01 9.40 8563.34 1.72 8575.71 14.10 8565.11 3.49 8566.21 4.60 8569.00 7.38
Xf z-zi . 9236.39 9232.58 9243.47 9235.48 9248.36 9237.36 9230.51 9241.42
2f: .
-::2 9.47 1.48
14.37 3.36 4.52 7.42
10303.55 10315.08 10306.62 10302.58 10314.11 10309.65 10319.29 10301.69 10308.91 10312.00
-0.95 10.51
2.11 -1.93
9.60 1.14
14.19
t.:: 7:49
11059.71 -0.29 U872.29 12.28 lUb3.08 3.01 11858.64 -1.36 11671.22 11.21 11662.01 2.00 1U76.85 16.85 11064.40 4.39 I 1b63.74 5.74 Ai869.13 9.13
8566.06 e561.11 8569.95 6565.75 5560.53 8566.58 0568.90 6565.19 8561.51 8559.74
4.44 5.55
t-:3 -1:oa
4.96 1.28 3.51 5.90
-1.88
9238.35 9239.51 9242.41 9238.03
x,zg- 3; 9241: 26 9237.39 9239.81 9231.84
4.36 5.52 8.42
-::g 4.84 1.26 3.39 5.81
-2.15
10308.15 10509.98 10313.06 10308.41 10302.60 10309.29 10311.81 10301.75 10310.33 10301.93
4.25 5.47 a.56
-::: 4.19 7.36 3.25 5.82
-2.58
AU65.59 11866.94 11170.32 1IYb5.20 lI858.75 11~6b.11 llUb8.93 11664.39 Ll8bl.Ll
11&45(1.ou
5.58 6.93
10.32 5.19
-1.26 6.10 0.92 4.38 7.21
8559.38 8562.oZ 8562.78 8563.74 8559.41 8562.05 8562.81 8563.77 8560.36 8555.67
-zt 1:16 2.13
-2.21 0.43 1.19 2.16
-1.26 -5.94
9231.41 -2.53 9234.23 0.24 9235.03 1.03 9236.04 2.o4 9231.50 -2.49 9234.26 0.21 9235.06 1.07 9236.07 2.08 9232.50 -1.50 9227.61 -6.39
10301.53
::Xtf’fX ;033::;;
. 10304.52 10305.37 10306.45 10302.63 10297.45
-2.97 11857.64 -0.03 11861.U7
0.83 111162.0b 1.90 A1063.33
-2.93 11057.69 0.01 llS61.U 0.86 ll862.lL 1.94 11663.38
-1.87 lld58.YO -7.O6 11852.16
-1.93 -2.37
1.06 2.06 3.32
-2.32 1.11 2.11 3.31
-1.11 -7.24
8562.53 0.92 9234.78 0.78 10305.07 0.56 11661.72 e558.74 -2.81 9230. a2 -3.17 10300. a7 -3.63 11856.84 8566.83 5.21 9239.27 5.27 10309.85 5.34 1116J.28 8558.15 -3.41 9230.21 -3.19 10300.23 -4.28 111156.14 8562.49 0.88 9234.73 0.74 10305.02 0.52 lillbl.66 8558.70 -2.91 9230.18 -3.22 10300.83 -3.68 1185b.~7
8566.79 5.17 9239.23 5.23 10309.80 5.29 118bl.21
8558.11 -3.51 9230.11 -3.83 10300.18 -4.32 11856.07 8568.34 6.73 9240.84 6.85 10311.50 7.oO 11869. Lb C300.4I La.73 6798.65 19.98 7592.08 21.87 8734.44
1.72 -3.17
7.27 -3.87
1.65 -3.L4
7.20 -3.94
9.15 23.79
6329.31 6314.27 6299.38 6293.21 6322.95 6295.46 6325.20 6321.40 6314.52 6305.25
47.63 6829.10 50.42 32.60 6813.05 34.38 17.70 6791.57 18.90 11.53 6191.05 12.38 41.27 6821.96 43.29 13.78 6793.40 14.73 43.52 6824.31 45.64 39.80 6820.58 41.91 32.84 68 13.35 34.68 23.57 6803.10 25.03
7624.92 7607.27 1590.90 7583.81 7616.50 7586.31 7619.00
;f:;=f: 7597141
54.71 8770.63 37.07 0750.68 20.69 6733.06 13.61 6125.U 46.30 8760.33 16.10 0721.b5 48.79 (1703.02 45.03 0159.05 37.37 8750.81 27.20 6740.06
09.98 40.02 22.43 14.48 49.68 17.18 52.37 48.40 40.16 29.40
L2M4 2 - nrlu 2 LZM5 2 - 115111 2 L2M5 2 - NSMl 3 LZll5 3 - 1(5Ml 2 L2M5 3 - bN1 3 LZNl 0 - hill1 1 L2hl 1 - WI1 0 LZNl 1 - Nllll 1 LZNZ 0 - Nzn1 1 LZN2 1 - L2Ml 0
‘,$I : - N2Nll -NM11
LZN3 1 - MN1 2 ~2N3 2 - N3111 1 L2N3 2 - luIl1 2 ~2~4 1 - NW11 L2N4 1- h4m2 LZN4 2 - N4Nl 1 L2N4 2 - N4Ml 2 L2k5 2 - km1 2
6290.29 16.61 61%.41 6301.94 20.26 6800.06 6312.40 30.80 6811.03 6304.33 22.65 68Qr.53 6314.87 33.19 68 13.50 6281.10 6.02 6785.15 6280.38 -1.29 6777.50 6288.32 6.64 6785.80 6288.63 6.95 6786.19 6283.82 2.14 6781.09
17.80
f:$ 23:6b 34.83
-::: 7.13 7.52 2.42
7589.15 19.55 7593.19 22.99 1604.81 34.60 7595.19 25.58 7607.40 37.20 7517.37 1.16 7569.21 -1.00 7578.07 1.86 7578.58 8.37 7573.02 2.82
3 -,“,’ . (1747.51 6131.13 8750.25 6710.25 8709.27 bll9.02 0719.70 6713.46
21.17 24.35 36.86 27.08 39.60
7.60 -1.39
0.37 9.13 t.ei
6282.89 1.22 6780.13 6283 -80 2.12 6781.05 6285.68 4.00 6783.01 6284.25 2.58 6781.52 6286.13 4.46 6783.*9 6285.80 4.13 6183.16 6285.34 3.66 6782.61 6283.02 1.34 678o. 24 6282.5b 0.88 6719.15 6283.61 1.93 6780.83
1.45 2.38
r:z 4.81 4.48 4.00 1.57 1.08 2.16
757L.99 7512.94 7575.03 7513.45 7515.54 7575.20 7574.68 7572.09 1571.51 7572.68
1.19 2.73
3% 5:33 4.99
:-;; 1:36 2.47
0712.33 1.60 0713.37 2.72 8715.68 5.03 8713.93 3.28 d716.24 5.59 8115.99 5.34 8715.41 4.76 8712.51 1.86 d711.94 1.28 8713.12 2.46
L2N5 2 - N5Wl 3 LZNS 3 - M5Ml 2 L2N5 3 - N5l(l 3 LZN6 2 - N6lU 2 L2N6 2 - WNl 3 LZN6 3 - WMl 2 LZN6 3 - llbUl 3
6284.28 2.bO 6781.52 2.85 7513.41 3.21 0713.94 3.29 6284.03 2.35 6181.21 2.60 7513.14 2.93
3.02 8113.63 2.98
6284.69 6181.96 3.29 7573.87 3.67 L714.45 3.80 6280.86 -0.82 6177. % -0.73 7569.59 -0.62 8709.65 -1.00 6280.17 -1.51 6771.20 -1.48 7568.77 -1.44 8708.59 6280.81 -0.87
-2.06 6717.89 -0.78 7569.53 -0.68
6280.12 -1.56 8109.57 -1.08
6777.15 -1.53 7568.71 -1.50 6708.51 -2.14
394
lRbNSITIaN ENERGY SHIFT ENERGY SHIFT ENERGY SHIFT ENERGY SHIFT
:::: f - - 111111 N7Ml 3 4 LZNl 4 - KIM1 3 L2N7 4 - NW1 4 UIIl 0 - Mm3 2 Lit41 I - am3 1 L2Ml 1 - MAN3 2
s : -Km32 - M2113 1 LZIIZ l- nrM32
6279.95 6200.85 6219.96 6280.% 6677.44 6650.b4 6680.36 6681.36 6659.70 6651.43
-1.73 -0.113 -1.12 -0.82 38.37 11.51 41.31
:oZ-:t 12:37
b716.95 -1.72 lSb&48 67 17.91 -0.76 75b9.54 6776.96 -1.71 1568.50 6777.93 -0*75 7569.55 1211.93 40.31 Mbbb.18 7154.09 12*53 8036.76 7215.00 43.45 0069.45 12 X6.42 44.87 8071.61 7193.4a 21.92 8046.63 7154.90 13.34 6031.58
-l.72 -0.67 -1.71 -0.66 43.43 14.02 46.71 48.86
::%I .
28.45 13.01 30.94 36.71 45.34 36.21 20.90 18.68 21.52 19.39
8708.19 -2.46 8709.55 -1.10 0100.21 -2.45 0709.51 -1.08 93O4.26 47.12 9272.62 15.48 9307.81 50.67 9311 .o:, 53.69 9L83.15 26.01 9273.4s lb.34
LZ113 1 - n3u3 2 L2(13 2 - NW13 0 A2tl3 2 - -3 2 LPU4 1 - 8483 1 L2R4 1 - MM3 2 L2U4 1 - M13 3 L2R4 2 -Ma3 0 L2M4 2 - MM3 1 L2W4 2 - MU3 2 L2M4 2 - Mm3 3
L2MS 2 - Mm3 1 L2#5 2 - Ml43 2 LU(5 2 - 1(510 3 L2115 2 - I(583 4 UN5 3 - Iwc41 L2M5 3 - llsu3 2 L2m5 3 - RS(13 3 L2M 3 - 4513 4
SK : - - N1113 NlIo 2 I
LiNl 1 - N1113 2 L2N2 0 - N283 2 L2N2 1 - WI43 1 L2N2 1 - kzfi3 2 L2N3 1 - h3M3 1
:t;3” : - - NW3 N31u 2 3 L2N3 2 - NM3 0 ~2~3 2 - N3113 1 L2N3 2 - N31u 2
L2N3 2 - N3W 3 L2N4 1 - WM.3 I L2N4 1 - h4M3 2 L2N4 1 - h4M3 3 LZN4 2 - AM3 0 LiN4 2 - N4M3 1 L2N4 2 - h4u3 2 L2N4 2 - N4113 3 L2N5 2 - NSH3 1 L2N5 2 - MU3 2
LPN5 2 - NW3 3 L2N5 2 - h5113 4 L2N5 3 - N5H3 1 L2N5 3 - kSH3 2 LZNS 3 - )u5lu 3 L2N5 3 - N51u 4 L2Lb 2 - NbN3 1 L2W6 2 - wblu 2 L2Nb 2 - NM3 3 L2Nb 2 - NbM3 4
L2Nb 3 - NbM3 1 L2Nb 3 - hbU3 2 L2Nb 3 - hbM3 3 L2Nb 3 - NbM3 4 L2N7 3 - N-7H3 2 L2Nt 3 - k7M3 3 L2Nt 3 - N7ll3 4 L2Nl 3 - kt1U 5 L2Nt 4 - h7113 2 L2Nt 4 - )rllU 3
L2N7 4 - N7M3 4 t::; d - h7U3 5
I ::z : - llln4 2
L2M2 0 - M2uII* 1 L2W2 1 - (12M 1 L2lU 1 - I(2M 2
tf:X : - - run4 IuII4 0 1
L2113 1 - MM 2 L2n3 2 - n3M 1 c2n3 2 - MM 2 L2M 2 - m3M4 3 L2I4 1 -Mn40 L2W4 1 - m4n4 2 L2M4 2 - MM 2
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of &I%, e,Ho, 7oYb, and ,IW (in eV) See page 387 for Expla&ion of Tables
TEnaxu4 L-65 IKILMIW Z-61 YfTERBlUll ZWO TUNGSTEN t-74
6664.15 25.09 6650.03 10.96 bbbb.4o 27.34
tdZd% 6670:82
:t 2: 31:75
6656.56 1t.59 6655.03 15.97 6662.92 23.85 6654.59 15.53
7197.99 26.43 8051.20 7123*34 11.18 6035.76 7200.33 2e.78 8053.69 7205.56 34.01 8059.46 72 U. 75 42.19 8ob8.09 720s. 10 33.54 0058.96 7190.65 19.09 6043.65 7108.68 17.13 8041.63 1196.87 25.31 805O.iz7 7180.22 lb.bb 8041.13
9287.73 30.59 9211.24 14.10 9290.43 33.29 9296.61 39.61 93Ub.o4 46.90 9296.21 39.12 9219.91 22.71 9277.82 20.68 9287.05 29.91 9277.27 20.13
6648.32 9.26 6671.93 32.67 6656&b 1t.40 6601.15 42.09 bbsO.11 11.65 bb74.32 35.25 665a.65 19.79 6663.54 44-48 6642.60 3.54 6640.95 1.89
7181.52 7206.01 7190.01 7215. s5 7184.00 7208.49 7192.46
~:l?~:: 7173166
9.91 0033.75 11.00 9260.91 11.71 34.46 6059.55 36.81 9296.47 39.33 18.45 0042.14 20.00 9278.58 21.44 43.99 8069.56 46.81 9307.11 49.97 12.44 8036.34 13.59 9271.64 14.50 36.93 8062.14 39.40 yL99.20 42.06 20.93 8045 - 34 22.59 9261.31 24.17 46.47 0072.15 49.40 9309.04 52.10
3.82 8026.98 4.23 9261.47 4.33 2.10 8025. lb 2.41 9259.48 2.34
6643.22 4.16 bC45-50 6.44 6640.56 1.50 6639-77 0.71 bb44.94 5.80 6639.84 0.77 6644.94 5.86 6633.95 -5.11 bb45.39 6.33 6640.29 1.23
‘I:::“2 ;;;;I::
1171:ra 7172.46 7177.70 71bb.34 li70.26 7112.94
4.47 6027.68 4.93 9262.24 5.10 6.93 8030.42 1.61 9265.46 8.32 1.69 0024.72 1.97 9259.00 1.86 0.86 8023.83 1.08 9258.02 0.87 6.23 0029.49 6.14 92b4.23 7.09 0.91 0023.84 1.10 9250.01 o.at b-23 8029.49 6.74 92b4.25 7.09
-5.21 0017.36 -5.38 9250.94 -6.20 6.70 6030.00 7.25 9264.79 7.65 1.38 0024.35 1.60 925i8.51 1.43
6645.39 6642.19 6644.21 6641.99 6637.86 6639.40 6641.49 6639.20 6630.40 6641.70
7110.26 7174.93 7177.12 1174.72 7 170.40 7172.01 7114.20 7111.80 7170.93 7114.47
6.70 3.31
::E -1.16
r":: 0.25
-0.62 2.92
7.25 9264.79 7.65 3.73 92bl.04 3.90 6.07 9163.65 6.51 3.51 9260.79 3.65
-1.10 92%.4b -1.48 0.62 9257.56 0.42 2.96 9260.17 3.03 0.40 9257.32 0.18
-0.57 9256.10 -0.96 3.20 9260.39 3.25
b642.06 6641.33 b&3(1.01 bb42.20 6642.# 6641.14 6636.30 bb37.64
:93:*32” .
6636.25 6631.59 6639.13 bb36.67 6635.29 6638.39 6638.12 bb3%30 6635.30 6638.40
6.33 3.12 5.21 2.92
-1.20 0.34 2.42 0.14
-x*67: .
2.99 2.26
-0.25 3.13 3.41 2.68
-2.t7 -1.43
0.12 -2.35
7174.76 3.21 7114.00 2.44 7171.37 -0.19 7174.91 3.35 7115.20 3.65 1174.44 2.06 7168.10 -2.06 T170.11 -1.44 7171*16 0.20 7169.14 -2.42
0030.00 6026 .*a 8020.02
SoOX . 0023.36 0025.71
XE ’ :5 8025:95
802b.26 0025.45 0022.64 6026.41 8026.12 8025.91 8019.75 8021.27 8023 .Ob 8020.21
3.51 9260.72 3.58 2-70 9259.84 2.69
-0.11 925b.69 -0.45 3.66 9260.90 3.76 3.91 92b1.23 4.09 4. lb 9Zb0.35 3.20
-3.00 9253.17 -3.97 -1.48 9255.02 -2.12
0.32 9257.29 0.15 -2.54 9253 .b9 -3.45
-2.81 7168.65 -2.91 8019.69 -3.06 925*.10 -4.05 -1.47 7170.06 -1.49 6021.21 -1-53 9254.95 -2.20
0.07 7171.71 0.15 8023.01 0.26 9257.Ll 0.01 -2.39 7169.O(I -2.47 8020.15 -2-60 9253.62 -3.53 -3.71 7161.3o -4.25 8018.53 -4.22 9251.52 -5.62 -0.61 7170.61 -0.95 0022.12 -0.62 925b.09 -1.05 -0.95 7110.30 -1.25 8021.77 -0.98 9255.57 -1.57 -0.76 7170.53 -1.03 8022.06 -0.69 9256.09 -1.05 -3.16 7167.32 -4.24 8018.54 -4.20 9251.5* -5.60 -0.66 7170.62 -0.94 8022.14 -0.61 925b.11 -1.03
bb30.k3 -0.93 6638.31 -0.75 6997.79 21.34 7~00.74 24.28 6993.77 11.32 7a06.06 29.60 bStb- 13 -0.33 7co3.03 26.56 6995.01 18.56 6993.09 16.63
7170.31 7170.54 7Sti.26 7551.35 1544.12
w:: 7553:74 7545.26 1543.30
-1.24 8021.78 -1.02 1)022.07 22.71 8421.13 25.76 8430.41 18.55 8422.75 31.67 8431.20
0.14 8403.11 28.17 0432.92 19.69 8423.70 17.73 8421.68
7uoa.97 24.52 lS51.48 25.91 8430.32 6995.34 11.89 1545.65 20.08 6424.18 3003.23 21.77 7553.83 26.26 9432.81 6994.90 18.44 7545.18 19.61 0423.68 6989.15 12.69 7539.24 13.67 8417.43 tcoa.12 31.67 ts59-02 33.45 6438.41 6991.89 15.44 1542.14 16.51 8420.58
-0.96 -0.67 24.82 28.10 20.44 34.39
0.86 30.61
::*3: .
ff’t: . 30.50 21.37 15.12 36.10 18.27
9255.59 -1.55 925b.11 -1.03 9697.62 2b.99 97Ul.11 30.55 9b92.93 22.31 9709.26 38.64 %ll.ll I*09 9703.83 33.21 9093.54 22.92 9691.45 20.82
9700.66 Yb94.14 9703-30 9b93.bO 968b.85 9709.41 9690.42
30.06 23.52 32.75
:z: 30: 79 19.80
lRANSlllON
L2115 2 - MSM 1 LZMS 2 - WM 2 L2nS 2 - 115114 3 L2W5 3 - I(sn4 2 L2M5 3 - Mm4 3 L2115 3 - mN4 4 L2N1 0 - NlM4 1 L2Nl I - NM4 1 L2Nl 1 - NW4 2 L2N2 0 - N2M4 1
L2N2 I- N2M4 1 L2N2 A- N2M 2 L2N3 1 - h3M 0 L2N3 1 - N3114 1 L2N3 1 - h3M 2 L2N3 2 - N3M 1 L2N3 2 - WI14 2 L2N3 2 - N3n4 3 L2N4 1 - 114114 0 L2N4 1 - N4M4 1
L.2114 1 - N4n4 2 L2N4 2 - MM 1 L2N4 2 - N4II4 2 L2N4 2 - h4H4 3 L2N5 2 - h5n4 1 L2N5 2 - NW4 2 L2N5 2 - hSM4 3 L2N5 3 - hSM4 2 L2N5 3 - N5N4 3 iiN 3 - NW4 4
LZN6 2 - N6M4 1 L2N6 2 - Nbh 2 L2N6 2 - hbn4 3 L2Nb 3 - NM4 2 L2N6 3 -Nbn43 L2N6 3 - Nbh 4 LW7 3 - N7M4 2 LPN7 3 - N7n4 3 L2Nl 3 - N7M 4 L2N7 4 - N7MS 3
L2Nl 4 - NW4 4 L2W7 4 - N7n4 5 L2Hl 0 - MlNl 1 L2Nl 1 - UN1 0 L2nl 1 - nlN1 1 L2h2 0 - W2N1 1
- n2Nlo - M2Nl 1
L2113 1 - 113Nl 1 L2M3 1 - W3Nl 2
L213 2 - UN1 1 LPW 2 - KiNl 2 L2n4 I - MNI I L2n4 i - 114N12 L2n4 2 - n4Ni i L2n4 2 - I14Nl 2 LLMS 2 - MN1 i L2M5 2 - M5Nl 3 L2HS 3 - MN1 2 L2n5 3 - WIN1 3
L2Nl 1 - hlN1 0 L2N2 0 - N2Nl 1 L2N2 1 L2N2 1 'I NZ'd2: ':
LZN3 1 - k3N1 1 L2N3 1 - N3Nl2 L2N3 2 - h3Nl 1 L2N3 2 L2N4 1 1 g43; ;
L2N4 1 - N4Nl 2
L2N4 2 - N4Nl 1 L2N4 2 - N4Nl 2
LtN5 2 - N5Nl 2 LLffjSS f - - hSN1 NSNl 2 3
L2N5 3 - hSN1 3 L2N6 2 - NbNl 2 L2N4 2 - WNl3 L2N6 3 - WI1 2 L2N6 3 - NbNl 3
L2N7 3 - NlNl 3 ~2~7 3 - NtNl 4 L2N7 4 - N7Nl 3 L2N7 4 - N7Nl 4 Lzni a - niw3 2 L2Ml 1 - lllN3 1 L2IIl 1 - MlN3 2
F. PARENTIS etal. LX-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of ssTb, 8,Ho, ,oYb, and ,4W (in eV) See page 387 for Explanation of Tables
ffRBIun 2=65 HoLnl urn z-b7 YTTEAI)IUH L’70
ENERGY SHIFT ENERGY SHIFT ENER6Y SHIFT
6V91.02 6994.49 7002.67 6996.00 7005.06 6992.W 6210.90 6919.60 6978.83 bVU1.80
14.56 18.03 26.21 20.42 28.60
‘f-:: . 3.15 2.30 5.42
7541.03 15.46 a419.08 16.77 1544.b5 19.00 0422.94 20.62 1553.11 27.60 8431.96 29.65 7547.13 21.56 6425.53 23.22 7555.65 30.00 0434.55 32.24 1542.94 17.37 0421.00 10.77 75 28.42 2.W 0405.65 3.34 7529.00 3.51 0406.35 4.O4 7520.20 2.71 0405.50 3.19 7331.52 5.95 64O9.07 6.71
6976.15
d%ZZ . 697e.48 6S00.51 6916.93 6900.97 6970.69 6971.36 6903.17
-0.31 7525.46 1.02 7527.60 0.76 752b.56 2.02 7527.07 4.06 7529.99 2.40 7526.35 4.51 7530.46 2.23 7528.10
-5.09 752O.43 6.72 7532.70
-0.11 2.11
X:,", 4.42 2.78 4.09 2.53
-5.14 7.21
0402.40 0.11 0404.85 2.54 0403.63 1.32 04OS.O2 2.71 0407.26 4.94 0405.53 3.22 0407.76 5.45 8405.26 2.95 0397.09 -5.22 0410.24 7.93
bF77.20 0.03 7526.63 6980.39 3.93 7529.04 W74.50 -1.96 7523.71 690C.39 3.93 7529.Ub 6576.54 0.09 7525.62 6970.23 1.77 1527.50 6579.71 3.25 7529.13 69711.65 2.19 7520.02 6900.13 3.67 7529.56 6977.61 1.16 75 26.94
6572.57 6976.36 6974.60
%O’ f3 6977135 6973.91 6975.42 6976.36 6975.43
-3.09 7521.50 -0.09 7525.63 4.86 7523.73 -0.14 7525.50 -1.90 7523.60
0.09 752b.69 -2.54 7923.01 -1.03 7524.60 -0.10 7525.59 -1.02 7524.62
::: -1.86
4.29 0.25 2.01 3.56 2.45
t-E .
-3.99 0.06
-1.84 0.01
-1.09 1.12
-2.56 -0.97
0.03 -0.95
0403.70 1.39 8407.13 4.81 0400.59 -1.72 0407.13 4.01 a402.79 0.40 8404.66 2.35 0406.31 3.99 0405.12 2.01 6406.77 4.4b 0403.98 1.66
8398.17 -4.14 8402.50 0.27 0400.49 -1.03 8402.53 0.21 0400.43 -1.80 a403.75 1.44 0399.72 -2.59 0401.44 -0.07 8402.52 0.20 0401.46 -0.05
6976.37 -0.09 6974.29 -2.16 lWO.00 45.49 7685.09 40.50 7093.02 40.43 7913.06 67.67 7004.27 30.00 7803.14 37.75
::::-zi . t;=z .
7091.20 45.09 7693.55 48.16 7905.05 60.46 7905.00 59.69 70a9 -62 44.23 7a0a.06 43.47 7095.03 49.64 7096.20 50.01 7097.42 52.03 7090.59 53.20
7525.61 7523.41 0524.54 8519.32 8527.62 0540.02 as17.60 8516.50 0522.44 0524.80
0.04 0402* 53 0.22 -2.16 0400.15 -2.16 47.34 9533.07 SO.23 42.11 9528.29 44.65 50.41 9537.15 53.51 70.01 9559.31 75.73 40.47 9526.61 42.97 39.29 9525.35 41.71 45.23 9531.29 47.65 41.59 9533.01 50.17
8524.70 47.50 9533.79 50.15 0527.15 49.94 9536.31 52.67 0540.12 b2.91 9550.26 66.62 8539.32 62.12 9549.41 65.77 0523.24 46.03 9532.43 40.ao 0522.44 45.24 9531.59 47.95 0520.70 51.49 9537.89 54.25 8529.91 52.70 9539.18 55.54 8531.17 53.96 9540.40 56.04 0532.38 55.18 9541.77 50.13
7e50.18 4.79 6402.13 4.92 7051.33 11.94 040.68 12.47 7050.37 12.90 0490.67 13.46 7051.60 6.21 0403.61 6.40 1046.13 0.14 0477.90 0.69 7059.23 13.04 0491.52 14.31 7046.59 1.20 0470.37 7059.60
1.17 14.29 0492 .OO 14.79
1854.30 a.99 04%. 54 9.33 705 1.02 5.63 0403.02 5.02
9408.70 5.14 9496.95 13.32 9497.87 14.23 9490- 37 b.73 V404.2b 0.62 9498.60 15.04 9404.77 1.13 %99.10 15.55 9493.40 9.04 %09.75 6.11
7051.59 6.20 7046.23 2.04 7347.59 2.20 7052.57 1.10 7840.01 2.62 7052.99 7.60 7045.86 0.47 7844.31 -1.00 7645.01 0.42 7844.26 -1.13
0403.62 04%. 11 1419.46
0405h9 0477.60 047b.05 0477.63 0416.00
6.41 2.90 2.25
2: 7.06 0.47
-1.lb
-i:%
%90.37 6.73 9406.64 3.00 V485.95 2.31 9491.46 7.02 9406.41 2.78 9491.92 0.29 9404.10 0.41 %02.37 -1.27 9404.05 0.41 %02.31 -1.33
7843.60 -1.71 0475.39 -1.82 9401.6b -1.90 7045.73 0.34 04n. 54 0.33 9483.95 0.31 7043.69 -1.70 0475.40 -1.01 9461.67 -1.96 7045.74 0.35 a477.55 0.34 9403.96 0.33 8OQ4.75 44.27 0640.77 45.96 9br5.29 48.44 8005.81 45.33 0b49.00 47.07 9176.47 8001.69 47.21
49.03 0651.04 49.03 96t0.5b 51.92
395
TUNGSTEN tat4
ENERGY SHlFl
%60.35 11.73 9692.51 21.80 9702.20 31.50 9b95.24 24.62 9704.93 34.31 %90.46 19.84 Vb74.OS 3.40 9674.09 4.17 Vbt3.07 3.25 9677.90 7.34
Vb70.53 -0.09 %73.15 2.52 Vb71.62 1.20 9673.33 2.71 %75.77 5.14 w73.w 3.27 9016.33 5.70 Vb73.bO 2.96 VbM.56 -6.06 9619.23 0.60
Vbt1.93 1.30 9675.75 5.13 9468.45 -2.11 9b75.7E 5.13 9670.07 0.25 9672.95 2.32 9674.17 4.15 9673.4b 2.04 V675.29 4.66 Vb72.10 1.56
V665.09 -5.53 9670.73 0.11 V4b7.95 -2.67 9610.60 0.03 Vbb7.08 -2.75 V612.2V 1.61 9bb7.00 -3.54 9bb9.22 -1.41 9610.51 -0.05 9669 -24 -1.39
9610.59 -0.03 9667.59 -3.03
10994.22 55.24 109(1u.01 49.03 10997.77 58.79 llO22.!h 03.56 10906.37 41.39 10904.99 46.01 lOV90.75 51.77 10993.51 54.53
10993.44 54.4b 10996.20 57.22 11011.42 72.44 11010.50 Il.52
10992.43 10991.50 ~1’2: IQvY7.60 se:70 10999.09 60.11 11000.41 61.43 11001.82 62.85
10945.09 6.11 10954.29 15.31 lOV54.99 16.01 1OV46.04 7.06 lQ940.10 1.13 10955.71 lb.73 lOV4O.bt 1.69 15956.27 17.29 10950.37 11.39 lOVCb.29 7.31
10946.90 7.92 10942.01 3.03 iOV42.00 3.02 10940.03 9.05 10942.51 3.53 10940.54 9.56 lOV40.20 1.23 10930.13 -0.05 10940.13 1.15 lOV3S.Ob -0.92
10931.24 -1.74 lO939.90 1.00 10937.26 -1.72 1094o.00 1.02 11165.59 53.01 11166.83 55.05 11169.14 57.36
396
TRAN5lTIoN ENERGV SHIFT ENERGV SHIFT ENERGV SHIFT ENERGV SHIF?
l.znz 0 - MZN3 2 LZRZ 1 - wN3 1 LZWZ 1 - (UN3 2 LZn3 I- MN31 LZMO 1 - KM3 2 LZll3 I - R3W3 3 L2113 2 - II3N3 0 LZa3 2 - n3N3 I L2113 2 - M3N3 2 LZ(13 2 - Wh3 3
LZt44 1 - MN3 1 L2R4 1 - MN3 2 L2N4 1 - U4N3 3 LZ(I4 2 - MN3 0
8029.10 68.61 8674.51 71.70 9703.21 7999.92 39.44 8643.77 40.% 9670.02 7999.17 38.68 8642.98 40.17 9669.19 8009.52 49.04 ub53.5u 50.17 9680.08 8004.42 43.94 8648.26 45.45 9674.43 8009.52 49.G4 %53.58 50.77 9680.08 8000.33 39.85 8b44.01 41.20 9669.94 8011.77 51.29 8655.93 53.12 9682.51 eGO6.67 46.19 %50.61 47.80 9676.93 ao1a.77 51.29 8653.93 53.12 9682.57
76.56 43.37
23-9 . 47.78 53.43 43.29 55.92 50.28 55.92
11196.57 84.79 11159.94 48.16 11159.02 47.24 11170.21 58.43 11163.99 52.21 Ail70.21 58.43 lU59.05 47.27 11172.90 61.12 11166.68 54.90 11172.90 61.12
8021.24 8023.21 8020.99 8003.75 a005.01 eoot.G4 6404.76 uoo II .94 (1012.82 8012.61
60.75
Z-T: . 43.26 44.52 46.56 44.28 48.45 52.33 52.12
8665.94 63.13 9693.38 66.73 11164.66 72.89 8668.05 65.24 9695.62 68.97 11167.11 75.32 8bb3.68 62.87 9693.12 66.47 11164.39 72.60 8647.74 44.94 9674.11 47.52 IlIb4.n 52.39 8bM.06 46.25 9675.56 48.91 11165.68 53.90 8651.17 48.36 9677.79 51.14 11168.12 56.33 0648.80 45.99 9675.29 48.64 11163.39 53.61 8652.98 50.17 9679.42 52.77 lllb9.19 57.41 8657.01 54.21 9683.68 57.03 11173.Q4 62.06 M%.80 53.99 %83.46 56.81 11173.60 61.82
LZM 2 - MN3 1 LZM4 2 - MN3 2 L2M 2 - MN3 3 L2)IS 2 - MN3 1 LZUS 2 - nsN3 2 L2llS 2 - Nsw 3
L2M5 2 - MN3 4 LZllS 3 - MN3 1 LZMS 3 - n5N3 2 AZ(I5 3 - N5N3 3 LZMS 3 - M5N3 4 LZNl 0 - NlN3 2 LZNl 1 - 111113 1 LZNl 1 - MN3 2 L2N2 0 - 1213 2 LZNZ 1 - WN3 1
L2N2 1 - N2N3 2 L2N3 1 - N3N3 2 L2N32-k3N30 LZN3 2 - N3N3 2 UN4 1 - N4N3 1 L2N4 1 -N4N32 LZN4 1 -N4N33 L2N4 2 - WN3 0 L2N4 2 - N4N3 1 LtN4 2 - WIN3 2
L2N4 2 - N4N3 3 L2N5 2 - NSN3 1 L2Nf 2 - NW3 2
- Nili3 3 - N!iN3 4
L2N5 3 - N5N3 1 ~2~5 3 - NSN3 2 L2N5 3 - 115113 3 LZNS 3 - N5N3 4 LZN6 2 - WN3 1
LZN6 2 - NbN3 2 LZNb 2 - hbN3 3 LZN6 2 - NbN3 4 L2Nb 3 - WN3 1 UN6 3 - MN3 2 L2Nb 3 - kbN3 3 L2N6 3 - N6N3 4 L2N7 3 - N7N3 2 LZN? 3 - N7N3 3 LZN? 3 - NtN3 4
LZNt 3 - NtN3 5 LtNt 4 - N7N3 2 LZN? 4 - NtW 3 L2N7 4 - N7N3 4 UN7 4 - NtN3 5 L2Nl 0 - (IIN4 1 LtNl 1 -MN41 LZIU 1 - BlW 2 LZHZ 0 - M2N4 1 LZIl2 I - M2N4 1
LZMZ 1 - M2N4 2 L213 1 - M3N4 0 L2113 1 - w3N6 1 LU(3 1 - WN4 2 L2)U 2 - N3Nb 1 L2)13 2 - luN4 2 LZlU 2 -mN63 L2w4 l- MM4 0 L2114 1 - MN4 1 LZN4 1 -MN42
L2#4 2 - N4N4 1 LOW4 2 - M4N4 2 LZM 2 -n4N43 LM5 2 - 1)5N4 1 UN5 2 - (liN4 2
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of cuTb, e,Ho, ,OYb, and ,4W (in eV) See page 387 for Explanation of Tables
ltaOltM Z-65 IIDLII UM Z-67 VT~ERBIUN 2'70 TUNGSTEN 2174
8012.65 52.17 %%.84 54.03 8011.33 50.84 8655.46 52.65 8015.21 54.72 8659.49 56.68 8015.00 54.51 8659.27 56.47 8015.04 54.% %59.31 56.50 7975.12 14.63 %17.89 15.08 1962.64 2.16 wO4.91 2.10 7975.14 15.25 %18.54 15.73 1970.54 10.06 8613.24 10.43 796U.38 1.90 0610.89 8.08
9683.48 56.84 11173.63 61.85 9682.01 55.36 11171.93 60.14 9686.27 59.62 11170.57 64.t9 %86.05 59.40 11176.34 64.55 9686.08 59.43 lLA7b.M 64.58 9642.43 15.79 11129.65 17.87 9628.71 2.07 1643.13
11114.82 3.04 16.48 11130.42 18.64
9637.70 11.05 11124.80 13.09 9635.05 8.40 11121.69 9.91
7964.81 4.32 8607.17 4.36 9631.11 7967.65 7.17 861O.Al 7.30 w34.17 7961.04 O.% 8603.24 0.43 9626.90 7968.11 7.62 Ub10.58 7.17 9634.67 1966.18 5.70 8608.63 5.92 9632.67 7969.49 9.01 ebl2.08 9.27 9636.33 1966.09 5.60 8608.53 5.13 9632.57 7964.82 4.34 8607.19 4.39 9631.12 7963.39 2.91 8b05.71 2.90 9629.56 7966.70 6.22 %09.16 6.35 9633.21
4.46 7.52
i-2 . 6.02 9.68 5.92 4.47 2.91 6.57
11117.43 5.65 11120.60 8.82 11112.74 0.96 1112A.16 9.38 11119.23 t.44 11123.22 11.43 11119.11 7.32 11117.45 5.66 lU15.75 3.91 llli9.74 7.96
1963.30 7958.41 7968.85 7961.18 7973.55 7958.83 7969.27 7961.60 7913.97 1958.92
-f :z 8.37 0.70
13.07 -1.66
:*:: 13:49
-1.57
8605.62 2.81 9629.45 2.81 11115.63 3.85 %00.54 -2.27 9b24.09 -2.5b 11109.72 -2.07 %11.42 8.61 9635.62 8.97 1112&2Y 10.51 6603.43 0.62 9627.16 0.51 Alll3.OL) 1.30 8616.31 13.50 9640.80 14.15 11127.93 16.14 8600.97 -1.84 9624.55 -2.10 L1110*2d -1.56 8611.85 9.04 9636.08 9.43 11122.80 11.02 8603.86 1.06 9627.62 0.97 11113.59 1.81 8b16.15 13.94 9641.26 14.61 lllZ(1.44 lb.66 8601.09 -1.72 9624.69 -1.95 11110.43 -1.36
7960.16 -0.33 6602.39 -0-u 9626.09 -0.56 11112.05 0.26 1962.49 2.01 8606.83 2.02 9628.69 2.04 11115.08 3.29 7958.86 -1.62 %01.03 -1.78 9624.64 -2.01 11110.34 -1.44 X58.87 -1.61 8601.04 -1.77 9624.64 -2.01 A1110.35 -1.43 7960.11 -0.37 8602.34 -0.47 9626.03 -0.62 11111.97 0.18 7962.45 1.96 8604.78 1.97 9628.63 1.98 lAlA5.00 3.22 7958.81 -1.67 8600.98 -1.83 9624.58 -2.07 11110.26 -1.52 1956.36 -4.12 8598.42 -4.39 %21.8? -4.78 11101.03 -4.75 7961.41 0.93 8603.70 0.89 9627.48 0.83 11113.b3 1.85 7960.19 -0.29 8602.43 -0.38 9626.13 -0.51 llAA2.05 0.21
2962.13 1956.37 7961.42 1960.20 t9b2.14 8130.79
:::3-;: 8155148 8125.56
1.65 -4.11
-“o:z 1.66
43.93 46.87 46.41 68.63 38.70
8604.44 1.64 %28.26 1.61 11114.54 2.tb 8598.43 -4.38 9621.88 -4.77 11107.05 -4.73 8603.11 0.90 9627.49 0.84 AAA13.65 1.87 MO2.44 -0.37 9626.15 -0.50 lALAz.or 0.29 8604.46 1.65 9628.28 1.63 AlAl4.56 2.78 8704.46 45.62 9826.11 48.29 11334.69 53.25 ete1.53 4e.to 9829.39 51.57 11338.24 56.80 8787.05 48.21 9828.81 51.05 11337.66 56.22 8810.56 71.?2 9854.42 76.60 11366.07 84.63 8779.03 40.20 9820.39 42.51 11328.52 47.08
8126.8b 8131.14 8132.68 8134.17 8134b93 8137.02
t:ix; .5:5;:g
.
8135.61 8129.72 8135.61 8136.95 8138.71 8140.24 8141.10
40.00 8780.39 44.29 87%. 66 45.83 87%.27 47.91 8186.46 48.08 8788.62 50.16 8190.80 47.88 8788.41 53.17 et94.04 64.99 88Ob.38 59.09 8800.24
41.56 45.82 47.43
+“% 51.97 49.57 55.20 67.55 61.40
9821.84 9826.00 9827.t2 9830.06 9830.22 9832.56
XI;:* E 9849126 9342.72
44.02 11330.14 48.18 11333.95 49.90 11335.80 52.24 11338.41 52.40 11338.50 54.74 AU41.11 52.18 11338.25 58.29 11344.69 71.43 11359.35 64.90 11352.05
48.76 8709.50 50.67 42.81 8783.36 44.52 48.76 ete9.50 50.67 50.10 8190.71 51.88 51.86 8t92.56 53.12 53.39 8794.16 55.33 54.25 8795.03 56.20
:t2:=z 9831143 9832.38 9834.35 9836.06 9836.95
53.61 11340.36 47.08 11333.01 53.61 11340.36 54.56 11340.56 56.53 A1342.16 58.24 11344.61 59.13 11345.50
48.70 52.46 54.3 I 56.98 57.06 59.67 56.82 63.25
FE; .
58.93 51.63 58.93 59.13 61.33 63.24 64.06
TAANSlTION
La45 3 - n5N4 3 en5 3 - n5N4 4 LZNL 0 - NlM4 1 LZNA 1 - NW4 1 LZNl 1 - NlN4 2 L2IL2 0 - R2N4 1 L2N2 I - N2N4 1 L2N2 1 - k2N4 2 L2N3 1 - NW44 0 L2N3 I - N3N4 I
L2N3 1 - N3N4 2 L2N3 2 - N5N4 1 L2N3 2 - N3N4 2 L2N3 2 - Nh4 3 L2N4 1 - wN4 0 LZN4 i - R4Nk t L2N4 2 - WN4 2 L2W 2 - k5N4 1 L2Ns 2 - N5N4 2 L2N5 2 - N5N4 3
L2N5 3 - N5N4 2 ~2~5 3 - N5N4 3 L2N5 3 - N5N4 4 L2Nb 2 - hbl44 1 L2Nb 2 - )(bNI 2 L2Nb 2 - WN4 3 L2Nb 3 - wN4 2 LPN6 3 - MbN4 3 L2Nb 3 - NbN4 4 L2N7 3 - N7N4 2
LZNl 3 - N7N4 3 L2N7 3 - NlN4 4 L2N7 4 - NlN4 3 L2Nl 4 - N7N4 4 L2N7 4 - N7N4 5 L2Ml 0 - HlNb 2 L211 1 - MN6 2 L2Nl 1 - NlNb 3 L2N2 0 - M2Nb 2 L2112 1 - N2Nb 2
L2l2 I - MN6 3 L243 l- H3Nb 1 L2)13 1 - 113Nb 2 L2113 1 - M3W 3 L2M3 2 - 113Nb 1 L2113 2 - M3Nb 2 Lu13 2 - n3N6 3 L2M3 2 - M3N6 4 LZUC 1 - M4N6 1 L2N4 1- MN6 2
LZll4 I - l44fd6 3 L2N4 2 - M4Nb 1 L2M 2 - MN6 2 ~Zll4 2 - U4Nb 3 L2114 2 - M4N6 4 L2M 2 - n5N6 0 L2N5 2 - N5Nb 1 L2W5 2 - N53N6 2 L2115 2 - WIN6 3 L2115 2 - m5Nb 4
L2M5 3 - H5Nb 1 L2N5 3 - R5hb 2 L2M5 3 - n5Na 3 L2N5 3 - W5Nb 4 L2ll5 3 - W5Nb 5 L2bl 0 - NlN6 2
- NiNb 2 - NlMb 3
L2N2 0 - N2Nb 2 L2N2 1 - k2Nb 2
L2N2 1 - N2N6 3 L2k3 1 - h3Nb 1 LZW 1 - N3N6 2 L2N3 1 - N3Nb 3 ~2~3 2 - KM& 1 L2N3 2 - 113116 2 ~2~3 2 - ~3~6 3 L2N3 2 - N3M6 4 ~2~4 l - ~4~6 I L2N4 1 - N4Mb 2
L2N4 1 - N4Nb 3 L2N4 2 - R4% 1 L2N4 2 - WIN6 2 L2N4 2 - N4Mb 3 L2N4 2 - tlbW 4 L2N5 2 - N5Mb 0 LtN5 2 - N5N6 1
F. PARENTE etal. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of ssTb, 6,H~, ,OYb, and ,4W (in eV)
TLRBlun t-t5 m)Lni U(I Z=bl YllER8lUM z-70 TUNGSIEN z-74
ERENGY SHIFT ENERGY SHIFT ENERGY SWIFT ENERGY SHIFT
0142.63 8140.02 8096. ia ao9b.ao ao93.43 6093.27
::z=;: 8093k 8092.09
55.78 8796.64 53.17 8793.91
9.32 8748.44 9.94 8749.10 6.58 ar45.58 6.42 a145.51 0.69 8739.45
12.84 0752.14 6.66 8745.66 5.24 8144.17
57.80 55.07
9.61
% . 6.68 0.61
13.30 6.02 5.34
9838.66 60.84 9835.74 57.92 9781.90 10.07 9788.59 10.17 97a4.w 7.04 9784.94 7.11 9778.35 0.53 9791.85 14.03 97a4.89 7.07 9783.33 5.50
11347.40 65.97 11344.u 62.72 11293.10 11.67 11293.87 12.44 11289.79 11290.14 uz82.69 11297.46 ~1289.7l 11268.01
8.35 8.71 1.26
16.05 8.21 6.58
(1095.40 a.55 6747.62 0.79 9786.90 9.16 11292.00 10.56 8092.54 5.69 8144.65 5.81 9703.83 6.01 l1288.5? 7.14 ac95.a5 9.00 874e.io 9.26 9787.49 9.61 11292.56 11.13 8092.45 5.60 8744.55 5.12 9783.73 5.91 11288.45 7.02 8oaa.23 1.38 8740.19 1.35 9779.14 1.32 11283.63 2.20 0094.15 7.89 8747.00 8.16 9786.39 8.56 11291.60 10.16 809i.96 5.11 8744.08 5.24 9783.21 5.45 11268.12 6.69
,ao90.19 3.33 8742.25 3.41 9781.34 3.52 11285.94 4.50 a09 1.29 4.44 0743.40 4.57 9782.57 4.75 lL287.29 5.85 1694.08 7.22 8746.31 7.47 9785.66 7.84 11290.67 9.24
8091.71 8094.49 8090.29 6aai.56 8089.76
:“oE-z aoesk aa93.19 aa84.85
4.86 7.64 3.44
-5.30 2.90
-2.81 2.86
-~% . -2.00
B743.84 5.00 9783.04 8746.74 7.91 9786.12 8742.36 3.52 9781.46 8733.26 -5.50 9111.79 8741.64 3.01 9780.98 6735.a7 -2.97 9174.61 8141.79 2.95 9780.92 0735.111 -3.02 9774.56 8745.43 6.59 9784.77 8736.71 -2.13 9775.50
5.21 8.30
-36:: 3.15
-3.21 3.10
-3.27 6.94
-2.32
11281.80 11291.18 11266.06 11215.25 11285.96 l12711.59 1l265.80 11276.51 lA290.34 11279.54
6.36 9.75 4.63
-6.18 4.52
-2.85 4.45
-2.92 8.91
-1.90
aaab.ao -0.06 8738.75 -0.09 9777.68 -0.14 aoaa. 54 1.68 8740.31 1.73 9719.62 1.79 aG86.ak -0.05 8738.76 -0.07 9777.69 -0.13 8086.55 1.69 8740.58 1.75 9779.63 1.81 8084.93 -1.92 8736.80 -2.04 9775.60 -2.23 8293.94 47.56 6960.62 49.14 10022. Ii 51.71 8296.08 50.51 8963.69 52.21 10025.99 54.98 8296. L9 49.81 8962.95 51.47 lOO25.17 54.17 8318.71 72.33 8986.77 75.29 10051.04 80.03 82811.78 42.41 BPS5.25 43.76 loo17.01 46.01
111(12.09 11284.37 11282.11 AlL84.39 11279.64 11564.60 11568.15 115b?.U9 lLSY5.80 11551.25
0.65 2.94 0.61 2.96
-1.80 54.22 59.71 58.71 87.42 49.87
8290.36 43.98 8956.93 45.45 10018.86 47.85 8294.89 48.51 8961.41 49.93 10023.20 52.20 8296.23 49.36 8962.83 51.35 10024.72 53.72 8297.70 51.40 0964.47 52.99 10026.52 55.51 0297.14 50.77 0963.76 52.28 10025.70 54.69 8298.48 52.11 8965.10 53.70 10027.22 56.22 8300.03 53.65 896b. 82 55.34 loO29.01 58.01 a297.5b 51.19 0964.20 52.72 10026.15 55.15 8309.34 62.96 0976.56 65.08 10039.39 68.39 8313.13 66.76 8980.61 69.13 10043.81 72.81
AA560.63 11564.1Y 11566.04 11568.31 11546.8Y 11569.74 lA571.00 11567.41 11581.47 11587.11
52.25 55.81 57.66 59.93 58.50 60.35 62.62 59.02 73.09 78.?3
8311.37 8293.11 5296.90
8effS’:f . 8300.17 a30a.49
:::;=7: .5303:30
64.99 8978.71 67.23 10041.71 70.71 46.73 0959.69 48.20 10021.57 so.57 50.53 a963.73 52.25 10025.98 54.98 40.76 8961.63 50.35 10023.a9 52.88 51.56 8964.84 53.36 10027.21 56.21 53.80 8966.91 55.43 10028.96 57.96 54.11 8961.24 55.76 10029.31 58.31 55.72 0960.95 57.47 10031.17 60.17 56.41 8969.68 58.20 10031.96 60.96 56.92 89 70.23 58.75 10032.56 61.56
11564.3s
::::‘,*:,” . 11565.34 li569.76 11510.04 11570.44 11572.79 11573.76 11574.54!
75.95 54.10 59.74 56.96 61.38 61.66 62.06 64.41 65.38 66.14
8302.08 56.50 6304.48 58.11 8305.18 58.80 0305.69 59.31 8303.55 57.17 8255.76 9.38 8256.38 10.00 6254.82 a.45 8257.66 11.28 8251.92 5.55
8969.71 8971.42 8972.15 8972.70 8970.43 8920.97 8921.62 8919.99
t::i- z7’ .
8920.89 8918.01 8919.31 8921.76 8918.49 89 19.19
%g,‘; . 89 14.63 8923.22
58.23 loG31.90 60.90 115r3.17 64.79 59.94 10033.76 62.76 11575.52 61.14 60.67 10034.55 63.55 AL576.50 68.11 61.22 10035.15 64.15 11577.26 68.80 58.95 10032.68 61.68 11574.15 65.76
9.46 9980.73 9.72 11519.19 10.81 10.14 9981.42 IO.42 11519.96 11.58
a.51 9979.69 a.68 11517.89 9.51 11.55 9983.08 12.07 LLSL1.00 13.42
5.49 9976.49 5.49 11514.35 SW97
6255.67 9.29 8252.93 6.55 0254.17 7.79 8256.51 10.13 8253.30 7.01 0254.62 8.25 8256.96 10.58 1253.33 6.95 8249.66 3.28 8257.86 11.48
9.41 9960.68 6.53 9977.56 7.83 9978.95
10.28 9911.53 7.01 9978.07 8.31 9979.46
10.75 9982.06 6.95 9978.01 3.15 9973.99
11.74 9983.18
9.67 6.56 7.95
10.55 7.04 8.46
‘E 2kl
12.18
lL519.32 10.94 11515.47 7.08 iASa7.08 8.70 11520.12 11.73 11516.03 7.64 11517.64 9.26 11520.68 12.30 11515.94 7.56 11511.51 3.12 11522'21 13.83
8252.14 8246.88 8255.07 a249.36 (1259.55 8250.72 0250.35
5.76 0.50 a.70 2.Q8
%i 3:97
8917.24 5.76 9976.82 5.82 11514.84 6.46 8911.72 0.24 9970.08 -0.12 11508.03 -0.35 a929.30 8.82 99ao.07 9.07 L1518.74 10.36 8914.32 2.84 9913.71 2.71 11511.37 2.99 8923.94 12.46 99113.92 12.92 i1523.20 14.82 8915.79 4.30 9915.29 4.28 11513.03 4.65 8915.41 3.93 9974.89 3.89 11512.59 4.21
See page 387 for Explanation of Tables
397
398
fAAkSlliON ENfffGY StilFT ENEAGV SHIFT ENERGY Stllfl ENERGY SHIFT
L2N5 2 - NSNA 2 8252.99 6.61 8918.17 6.69 9977.84 6.83 11516.02 7.64 8253.75 7.38 89U.97 7.49 9978.69 7.69 11511.02 8.63 ~254.72 I.34 8919.98 8.50 9979.77 8.76 U518.26 9.90 8250.77 4.39 D915.04 4.36 9975.35 4.35 LlSL3.10 4.72 1253.41 7.03 8918.61 7.13 9970.30 I.% 11516.53 3.15 8254.17 7.79 8919.41 7.93 9979.15 a.15 11517.53 9.15 8255.14 1.76 0923.42 8.96 9980.23 9.22 Ll5111.79 10.41 0251-72 5.34 89 16.04 5.36 9976.41 5.41 llS14.31 5.93 ~242.64 -3.74 8907.37 -4.11 9966.37 -4.63 11502.95 -5.43 8247.16 0.78 8912.13 0.65 9971.4& 0.46 11509.31 0.93
UN5 2 - ~5% 3 L2N5 2 - tiN6 4 LZNi 3 - NSN6 1 UN5 3 - USN6 2 i2N5 3
if:; ; 1 - NSS N5NA i 5
t::: f -N6Nbo - NW6 2
L2N6 2 - N6u6 4 L2N6 3 - NbN6 2 L2N6 3 - %Nb 4 LZNl 3 - Ntwb 1 UN7 3 - NlW 2 L2Nl 3 - N7N6 3 UN7 3 - MN6 i
‘,fET s - - N7N6 N7W 5 2 UN7 4 - N7N6 3
LZN7 4 - NlW 4
kf21’ t - N7Ni 5
GIL - NIt& 6
1 - IUNL 0 L3N2 l- 82NlO UN2 1 - Nzlll 1 L3H2 2 - N2lU 1 L3N3 0 - H3Nl 1 L3N3 1 - lull1 1 L3A3 1 - n3lll 2
Lu(3 2 - IuNll L3113 2 - R3n1 2 L3113 3 - N3Nl 2 L3M 0 - MN1 1 L3)I4 1 - MM1 1 L3W4 1 - MM1 2 L3M4 2 - )wHl 1 L3M 2 - MM1 2 L3114 3 - MN1 2 L3)o 1 - n5w1 2
L3M5 2 - N5Nl 2 L3115 2 - 115111 3 ~3~5 3 - NSNL 2 L3N5 3 - 115111 3 L3115 4 - USN1 3 L3Nl 1 - NlNl 0 L3N1 1 - NW1 1 L3N1 2 - &ill1 1 L3N2 1 - N2Xl 0 L3N2 1 - kzN1 1
L3N2 2 - N2)11 1 L3N3 0 - N3Rl 1 UN3 I - lOn11 L3N3 1 - N3)11 2 L3N3 2 - UN1 1 L3N3 2 - N3Hl 2 L3N3 3 - N3Rl 2 L3N4 0 - WNl 1 L3N4 L. - WNl 1 L3N4 1- Mlll2
L3N4 2 - N4ltl 1 L3N4 2 - N4Nl 2 L3N4 3 - N4lut L3N5 1 - NW1 2 L3N5 2 - WNI 2 L3N5 2 - NSWl 3 L3N5 3 - NM1 2 L3NS 3 - MUA 3 L3N5 4 - N5Ml 3 L3N6 I- NM12 L3N6 2 - N6Nl 2 L3N6 2 - N6Nl 3 L3N6 3 - Wltl 2 L3N6 3 - Wl 3 L3N6 4 - N6Nl 3 L3N7 2 - N7Ml 3 L3N7 3 - N7Ml 3 L3N7 3 - A7Nl 4 L3N7 4 - N7Hl 3 L3N7 4 - N7Nl 4
L3N7 5 - N7Ml 4 L3Nl 1 - NlR2 1 L3Nl 2 - WlMt 0 L3111 2 - MlR2 1 L3A2 2 - #2&i 0 L3113 0 - w3A2 2 L3R3 1 - Kwl2 1
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of saTb, J-lo, ,OYb, and ,,W (in eV) See page 387 for Explanation of Tables
TERBlW 2-65 HDLMIUN L-67 YTTEABIUA r-70 UNGSTEN L=74
8248.96 2.58 8914.02 0247.11 0.74 6912.08 0248.91 2.53 8913.96 8244.14 -1.63 8909.60 0245.97 -0.41 8910.89 8246.11 1.73 89l3.14 8248.26 1.88 69 13.29 8249.03 2.65 8914.10 8245.98 -0.39 8910.91 824%. I2 1.74 8913.15
2.54
2”:Z -1.m
'!'E I:81 2.62
-0.57 1.67
9973.49 2.40 115L1.03 3.45 9971.41 0.40 11509.24 0.86 9913.43 2.43 115Ll.15 3.37 9968.78 -2.22 11505.97 -2.42 9970.17 -0.84 iILO7.69 -0.70 9972.56 1.56 11510.67 2.29 9972.73 1.73 11510.87 2.49 9973.60 2.59 AkU1.96 3.51) 9970.18 -0.82 1l507.1~ -0.68 9972.58 1.58 rlSL0.69 2.31
0248.27 0249.04 8245.68 5562.10
:::i-$ 5575:47 5581.09 5545.n 5575.51
1.89
;i:E .
42.03 21.93 30.26 35.87
0.55 30.29
8913.31 e914.11 89 10.59 5955.00 5976.30 5962.12 5965.25 5970.95 5934.08 5964.99
1.83
4% 20.78
22 31.03 36.73 -0.14 30.77
9972.75 1.75 11510.89 2.51 9973.61 2.61 11511.98 3.59 99b9.84 -1.17 11507.26 -1.12 6560.70 23.49 1401.06 25.19 6585.49 48.26 7427.85 51.99 6569.11 31.90 7410.26 34.39 6571.70 34.49 7413~07 37.21 6577.49 40.2L) 74lU.82 42.9b 6530.26 1.05 7376.43 0.57 6570.95 33.74 741A.U 35.76
5565.75 20.53 5954.95 20.73 6560.48 23.27 t400.48 5595.49 50.27 5905.86 51.64 6593.17 55.96 7435.67 5575.5L 30.29 5964.99 30.77 6570.95 33.74 7411.62 55110.71 35.50 5970.64 36.42 6571.27 40.06 7418.77 5560.53 35.32 5970.46 36.24 6577.08 39.87 7418.54 5573.57 26.35 5963.22 29.00 6569.43 32.22 7410.32 5573.14 27.92 5962.72 28.50 6568.82 31.61 7409.61 5566.16 20.96 5955.48 21.26 6561.17 23.96 7401.37 5513.39 20.18 5963.04 2O.lU 6569.23 32.02 1410.11 5578.42 33.21 5968.16 33.94 6574.46 31.25 7415.41
Lgz: . 35.76 42.90 42.69 34.4b 33.74 25.51 34.24 39.60
5560.82 15.61 5949.76 15.54 6554.86 17.65 7394.31 16.45 5531.31 26.15 596a. 73 26.51 6566.48 29.27 7406.83 30.96 5571.0% 25.86 5960.50 26.28 6566.34 29.13 140b.75 30.80 5581.62 36.41 597L.47 37.25 6577.96 40.75 7419.26 43.40 5565.14 19.93 5054.20 19.98 6559.50 22.30 7399.27 23.40 5544.29 -0.93 5932.48 -1.74 6536.54 -0.61 7174.74 -1.12 5552.22 7.01 5940.78 6.56 6545.40 8.19 7384.50 8.63 5551.02 5.80 5939.52 5.30 6544.05 6.84 7303 .oi 7.15 5549.28 4.06 5937.71 3.49 6542.13 4.92 Z300.95 5.09 5526.35 3.13 5936.74 2.52 6541.10 3.89 7379.112 3.95
5541.82 3.60 5937.23 3.01 6541.63 5552.17 6.95 5940.70 6.48 6545.26 5545.33 0.11 5933.54 -0.68 6537.63 5547.21 1.99 5935.50 1.28 6539.71 3540.92 3.71 5937.3o 3.08 6541.63 5550.80 5.59 5939.26 5.04 6543.72 5547.23 1.99 5935.50 1.2a 6539.71 55458.64 3.43 5937.03 2.81 6541.38 5546.57 3.36 5936.95 2.74 6541.29 554a. 11 2.90 5936.47 2.25 6540.78
7310.40 4.54 I384.37 8.50 7375.92 0.06 7379.23 2.37 1360.3b 4.49 Zj82.67 6.00 1378.23 2.37 1380.23 4.36 7380.13 4.26 7379.55 3.68
5547.31 2.09 5546.35 1.63 554a.10 2.68 5549.38 4.16 5546.39 1.18 5547.06 1.64 554&CB 2.86 5548.74 3.52 5546.05 0.113 5 544.80 -0.41
5935.62 5935.14 5936.46 5937.79 5934.65
;:::-:t 5937: 11 5934.26 5933.00
1.41
,“:Z 3.57 0.43 1.12 2.20
;:z -1.22
6539.06 6539.35 6540.76 6542.16 6538.80 6539.53 6540.70 6541.43 6538.39 6537.08
t=,‘; . 0.42 2.50 4.42 6.51 2.50 4.17
3’5”‘: .
2.65 2.14 3.55 4.95 1.59 2.33 3.49 4.22 1.19
-0.13
7378.51 2.65 7377.93 2.07 7379.53 3.67 73111.06 5.22 7377.29 1.42 737Y.11 2.25 7379.*4 3.57 7380.26 4.39 7376.81 0.96 7375.47 -0.39
5544.42 5543.72 5544. L7 5543.46 5543.90 5543.90 5543.46 5544.35 5543.33 5544.23
-o.llo
If:: . -1.74 -1.31 -1.31 -1.76 -0.86 -1.89 -0.99
5932.58 -1.63 6536.61 5931.84 -2.30 6535.79 5932.32 -1.90 6536.32 5931.58 -2.64 6535.50 5932.03 -2.18 6536.01 5932.02 -2.20 6535.99 5931.54 -2.0 6535.45 5932.50 -1.72 6536.50 5931.40 -2.61 6535.30 5932.37 -1.85 6536.36
-0.60 -1.41 -0.89 -1.71 -1.20 -1.22 -1.76 -0.70
I:.;; .
-0.46 30.09 40.04 23.66 23.80 48.88 18.71
7374.87 7373.81 7374.46 7373.43 7374.10 1374.01 ;;;:A;
. z373.15 7374.51
I,“-;; . -1.38 -2.44 -1.77 -1.82 -2.53 -1.16 -2.72 -1.35
5544.56 5769.32 5714.21 5769.32 5767.08 5790.13 5763.08
-0.65 22.90 31.79
;‘o-6’: . 43.70 16.65
5932172 -1.49 6536.75 6173.52 27.02 6796.62 6182.97 36.47 6806.77 6167.48 20.99 6790.39 6167.50 21.00 6790.53 6191.37 44.87 6815.61 6163.08 16.58 61B5.44
7375.02 -0.05 76bl.34 32.20 7611.98 42.84 76S4.30 25.25 7054.66 25.53 Z6U.32 52.19 7648.60 19.46
TilAh~I~lON EUERGY SHIFT ENEUGY SW FT ENERGY SHIFT
L3113 1 - )(3lu 2 L3n3 2 - ll3n2 1 L31(3 2 -KM22 L3n3 3 - n3m2 1 L3113 3 - n3n2 2 L3n4 0 - mn2 2 L3n4 I -me? 1 L3n4 I- n4n2 2 L314 2 - n4n2 1 L3W4 2 - MM2 2
L3114 3 - n4n2 I L3n4 3 - U4n2 2 L3)IS 1 - n5n2 2 LW5 1 - nsn2 3 L3n5 2 - nsw 2 L3MS 2 - nsw 3 L3115 3 - nsn2 2 LY)S 3 - n5R2 3 L3m5 4- n5n2 2 ~3n5 4 - n5n2 3
L3N1 1 - NW2 1 L3Nl 2 - Nln2 0 L3Nl 2 - NlM2 1 L3N2 1 - N2&? 1 L3N2 2 - N2W 0 L3N2 2 - N2n2 1 L3N3 0 - N3112 2 L3N3 1
E"N3 : I - tan2 N3& : i
L3N3 2 - tan2 2
5154.01 5183.06 stt4.19 5t63.03 5754.81 5t91.26 5764. It 5191.08 5756.16 5183.68
8.39 36.63 28.37
‘E 44183 17.15 44.65 10.35 37.26
6154.50 6183.95 6115.31 6163.08 6154.50 6192.63 6164.42 6192.45 6156.68 6184.71
3::: 28.81 16.58
8.00 46.14 1'1.93 45.95 10.19 38.21
6716.39 9.66 6801.66 40.93 6798.61 31.88 6185.h4 18.11 6716.39 9.66 6811.09 50.36 6781.15 20.42 6816.90 50.11 6118.89 12.16 6608.64 41.91
5764.00 11.51 6164.24 5190.90 44.48 6192.26 5184.99 38.51 6186.00 5180.18 33.75 6180.98 5767.39 20.91 6161.60 5162.58 16.15 6162.58 5771.64 31.22 6116.34 5712.83 26.41 6113.33 5161.16 14.74 6161.01 5156.35 9.93 6156.06
11.14 45.77 39.50 34.49 21.10 16.09
‘2:-z 14: 57
9.56
6186.96 20.23 6816.10 49.91 6809.85 43.12 6804.54 31.81 6790.26 23.53 6784.94 18.21 6001.14 35.01 6796.42 29.69 6783.28 16.55 6711.96 11.23
5t49.10 3.36 5749.71 3.29 5748.58 2.15 5753.07 6.65 5t44.96 -1.46 5153.54 1.12 5753.11 1.34 5147.69 1.26 5146.93 0.51 5751.28 4.86
6149.26 6149.19 6148.00 6152.13
::$-ff 6153:41 6147.04 6146.25 6150.80
2.tt 6170.90 4.17 2.69 6770.82 4.09 1.51 6169.55 2.82 6.24 6774.64 7.91
-2.28 6165.51 -1.22 6.73 6775.17 8.44 6.91 6115.21 8.54 0.54 6768.48 1.15
-0.25 6761.64 0.91 4.30 6112.48 5.75
5750.53 4.10 5147.69 1.26 5146.93 0.51 5750.02 3.59 5748.64 2.22 5149.95 3.52 5741.38 0.96 5148.68 2.26 5748.63 2.21 5149.93 3.51
6150.01 6141.04
3.51 6771.65 0.54 6768.48
-0.25 6167.64 3.00 6111.13 1.57 6169.60 2.93 6111.05 0.24 6760.17 1.60 6769.62 1.55 6769.59 2.91 6711.03
4.92 1.75 0.91 4.40 2.87 4.32
i:$ .
4.30
~3~3 3 - run2 i L3N3 3 - wn2 2 i3N4 0 - N4n2 2 L3N4 1 -N4lul L3N4 1 - NM2 2 L3N4 2 - tWl2 1 L3N4 2 - tnn2 2 L3N4 3 - n4n2 I L3N4 3 - 114112 2
L3NS 1 - N51u 2 L3n5 1 - NSU2 3 L3N5 2 - N51(2 2 L3N5 2 - NSN2 3 L3N5 3 - N5N2 2 L31YS 3 - N51U 3 L3N5 4 - wsn2 2 L3N5 4 - N5UP 3 L3N6 1 - NM2 2 L3N6 1 - N6n2 3
L3N6 2 - MM2 2 L3N6 2 - n6n2 3 L3N6 3 - MIIZ 2 L3N6 3 - N6n2 3 ~3~b 4 - n6n2 2 L3N6 4 - MM2 3 L3Nl 2 - NW2 3 L3Nl 2 - )utn2 4 L3Nl 3 - Ml112 3 L3Nl 3 - Nln2 4
L3Nl 4 - ton2 3 L3N7 4 - NtU2 4 L3ht 5 - NW2 3 L3Nl 5 - Nil@ 4 L3nl 1 - tiw i
L3Wl z - Ml113 2 L3W2 1 - luM3 1 L3n2 1 - n2n3 2
1.3n2 2 - IuW3 1 L3n2 2 - Iu113 2
t:*,’ ‘: - - 113113 n3n3 2 2 L3W3 2 - N3N3 0 L3n3 2 - Inn3 2 L3n3 3 - n3n3 2 ~3n4 0 - n4n3 2 L3n4 i - n4n3 i L3114 1 - n4n3 2
i.3114 i - n4n3 3 L3114 2 - MW 0 L3n4 2 - n4n3 1 L3114 2 - n4M3 2 ~3114 2 - n4t43 3 L31(4 3 - n4n3 1 L3114 3 - n4n3 2
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of =Tb, 6,H~, 70Yb, and ,4W (in eV)
1ere1un L-65 HGLIIIlUl Z-61 YTTERIllM Z-70
6146.25 6149.50 6148.06 6149.42 6146.13 6148.09 6148.05 6149.41
5750.92 4.49 6150.43 3.93 6772.10 5150.55 4.12 6150.04 3.55 6711.69 5741.93 1.51 6141.29 0.19 6768.74 5747.56 1.14 6146.90 0.41 6768.33 5749.61 3.19 6149.06 2.56 6710.63 5749.24 2.82 6148.67 2.18 6110.23 5146.92 0.50 6146.23 -0.21 6161.60 5146.55 0.13 6145.84 -0.66 6761.19 5744.95 -1.40 6144.16 -2.34 6765.40 5746.53 0.10 6145.85 -0.65 6161.25
5.37 4.96 2.01 1.60 3.90
3-3; . 0.46
-1.33 0.52
5144.56 -1.86 6143.74 -2. I ! , 6764.94 -1.79 5746.14 -0.28 6145.43 -1.06 6766.79 0.06 5144.32 -2.11 6143.48 -3.02 6764.65 -2.08 5145.90 -0.53 6145.17 -1.33 6166.49 -0.24 5744.14 -1.68 6143.94 -2.56 6765.16 -1.51 5746.32 -0.10 6145.63 -0.81 6167.01 0.28 5145.10 -0.72 6144.% -1.54 6766.26 -0.47 5745.29 -1.13 6144.51 -1.98 6765.78 -0.95 5145.26 -1.11 6144.47 -2.02 6165.12 -1.01 5744.04 -1.58 6144.03 -2.41 6165.24 -1.49
5745.13 -1.29 6144.34 -2.16 6765.58 -1.15 5744.72 -1.71 6143.90 -2.60 6165.09 -1.64 5745.46 -0.96 6144.69 -1.80 6165.91 -0.16 5745.05 -1.37 6144.25 -2.24 6165.49 -1.24 5912.33 9.73 6340.43 13.33 1005.38 15.63 5942.07 39.47 6311.34 44.24 1038.01 48.32 5912.33 9.13 6334.39 1.29 6998.96 9.21 5%2 .Ol 39.41 6365.31 38.21 1031.65 41.90 5933.41 30.87 6358.73 31.63 1024.85 35.10 5925.20 22.60 6350.15 23.05 7015.80 26.05
5935.79 33.19 6361.16 34.06 5921.52 24.92 63 52.58 25.48 5952.03 49.43 6377.69 50.79 5916.71 14.11 6341.01 13.91 5920.32 11.71 6344.89 11.19 5936.69 34.09 6361.88 34.18 5916.11 14.11 6341.01 13.91 5938.38 35.18 6363.80 36.70 5930.31 21.71 6355.44 28.34 5938.20 35.60 6363.62 36.52
37.69 28.64 55.12 15.89 20.18 38.11 15.89 40.38 31.55 40.19
5929.81
Xtx 5930:81 5922.48 5930.14 5938.02
27.21 6354.91 21.87 22.24 6349~ 66 22.56 20.32 634t.70 20.60 28.21 6355.88 28.18 19.88 6341.23 20.13
pt.54 6355.25 28.15 35.42 6363.44 36.34
7027.44 7018.39 7044.87 1005.64 7009.93 7027.86 7005.64 7030.13
;:t:-‘,: .
7020.80 7015.06 7013.04 7021.68 7012.54 7021.11 7029.14
31.05 25.32 23.30 31.93 22.80 31.36 39.99
See page 387 for Explanation of Tables
399
TUNGSTEN L=l*
ENERGY SHIFT
7638.93 9.80 1672.65 43.51 1662.98 33.84 1648.60 19.46 7636.93 9.80 lb83.07 53.94 1650.74 21.60
rbl12.86 1641.79 :t”x: . 7613.91 44.71
7650.53 21.39 1682.65 53.51 t614.98 45.84 7669.24 40.11 7653.83 24.69 7b48.09 18.95 7666.26 37.12 lbbO.52 31.39 1646.26 17.13 1640.53 11.39
7033.36 4.22 7633.25 4.12 7631.81 2.73 lbAt.5t 8.43 7627.42 -1.11 7638.15 9.02 7636.20 9.06 1630.67 1.53 7629.15 0.62 1635.11 5.91
7634.19 5.05 1630-b? 1.53 1629.15 0.62 1633.16 4.63 tb32.05 2.91 7633.66 4.53 7030.43 l.LP 7632.05 2.91 7632 -03 2.90 7633.65 4.51
1634.03 5.69 tb34.37 5.23 7b31.04 1.90 1630.58 1.4* lb33.lU 4.04 7032.73 3.59 tb29.75 0.61 7629.29 0.16 762J.21 -1.92 lb29 .bO 0.46
7626.61 -2.52 7628.99 -0.14 7b26.23 -2.91 7626.61 -0.53 7626.90 -2.24 7629.28 0.14 7628.30 -0.84 1627.68 -1.46 7627.59 -1.54 7026.91 -2.11
1621:90 :“bf x-:x
-1.13
-2.35 -1.23 7627.26 -1.85 1939.24 16.88 1914.43 52.01 1932.28 9.92 7901.41 45.12 7960.32 37.97 7950.66 28.30
1963.14 40.78 7953.4r 31.12 1981.42 59.01 7939.03 16.68 1943*89 21.54 lY6J.08 40.72 7939.03 16.68 1965.11 43.41 7956.32 33.96 7965.55 43.20
1955.1* 33.42 1949.4b 27.11 7947.37 25.01 1956.60 34.25 7946d3 24.kl 1950.11 33.15 7965.34 42.99
400
TRANsIlIoN EhERGY SHlFf ENERGY SHIFT ENERGY SHIFT
LY)4 3 - It4113 3 La115 1 -MM31 L3M5 1 - NM3 2 La45 1 - Mw3 3 LYI5 2 - n5w3 1 1315 2 -ML92 L3Uf 2 - Mm3 3 A315 2 -IBM34 L3115 3 - Mm3 1 Lull 3 - I5M3 2
LWS 3 - Mm3 3 L3N5 3 - 11513 4 L315 4 - ml3 2 L3N5 4 - n5ru 3 L-5 4 - ll5Iu 4 UN1 l- NM3 1 L3Nl 1 - NM3 2 L5NL 2 - NM3 I LlNl 2 - k1113 2 L3N2 A- N2lul
5929.70 27.09 6354.79 27.69 5924.81 22.21 6349.63 22.53 5941.42 45.02 6374.11 47.01 5932.95 30.35 6356.11 31.01 5907.21 4.61 6331.23 4.13 5930.@2 26.22 6355.71 28.61 5915.35 12.75 6339.71 12.61 5940.04 37.44 6365.25 31). 15 5917.46 14.26 6341.97 14.67 5941.07 38.47 6366.46 39.36
7020.61 7015.01
;::-:: 6995:42 7021.22 7004.41 7031.23 7006.89 7032.70
30.86 25.26 51.07 34.26
5.67 31.47 14.66 41.48 17.15 42.95
5925.60 23.00 6350.45 5950.29 47.69 6375.99 5924.59 21.99 6349.19 5909.12 6.52 6335.10 5933.81 31.21 635&?2 5904.% 2.26 6328.63 5907.13 4.53 6331.00 5903.65 1.05 6327.3? 5905.92 3.32 6329.74 5906.02 3.42 6329.66
23.35 48.D9 22.09
3s 1.53
22 2.65 2.76
;:::*:x 7014:24 6997.44 7024.25 6992.49 6995.01 6991.14 6993.66 6993.62
26.14 52.96 24.50
7.69 34.50
2.74 5.26 1.39 3.91 4.08
L3u2 1 - N2M3 2 L3N2 2 - N2u3 1 L3N2 2 - km3 2 L3N3 0 - MN3 2 Luc) 1 - wilt3 1 L3N3 8 - NM3 2 L3N3 1 - N3N3 3 L3N3 2 - k3n3 0 Lw13 2 - N3lu 1 LUUZ-N3m2
L3N3 2 - N3lt3 3 L3N3 3 - N3m3 1 L3N3 3 - N313 2
L3N3 3 EJZ F z - MM3 1
3 x
L3W4 1 - Ml2 2 L3N4 1 - N4lu 3 L3N4 2 - N4u 0 L3N4 2 - w+n3 1
:3; t - - N41(3 Mm3 2 3 L3N4 3 - N4N3 1 L3N4 3 - Nkw 2 L3N4 3 - hkR3 3 i.315 A - n5u3 1 L3N5 1 - Mm3 2
5905.23
fxt ;:W::$
m;:f:
::::% 5904:oa
5910.06 5906.47 5901.37 5906.47 5907.11 5904.95 5907.04 5904.76 5902.15 5903.69
2.63 6329.03 1.93 6992.94 3.19 3.09 6330.35 3.25 6994.35 4.6a 3.09 6329.52 2.42 6993.41 3.12 5.60 6332.11 5.01 6996.16 6.41 3.07 6330.27 3.18 6994.17 4.43
-1.24 6324.% -2.14 6968.53 -1.22 3.87 6330.27 3.18 6994.11 4.43
-3.98 6322.12 -4.90 6935.55 -4.20 7.46 6334.04 6.94 6998.10 8.43 2.36 6326.72 1.62 6992 -54 2.79
3:: -1.24
3.87 4.51 2.35 4.44 2.15
-0.45 1.09
6334.04 6.94 6998.18 0.43 6330.27 3.18 6994.17 4.43 6324.96 -2.14 6900.53 -1.22 6330.27 3.18 6994.17 4.43 6330.99 3.119 6995.00 5.25 6328.73 1.63 6992.57 2.a 6330.91 3.81 69%.91 5.17 6328.52 1.42 6992.35 2.60 6325.79 -1.31 6989.42 -0.33 6327.40 0.30 6991.14 1.39
5905.78 3.18 5903.49 0.89 5904.94 2.34 5907.03 4.42 5904.74 2.14 5904.16 1.56 5907.55 4.94 5907.83 5.22 5901.18 -1.43 5904. % 1.96
6329.58 6327.19 6328.71 6330.90 6328.51 6327.86
t’,3:*;: . 6324.75 6328.29
2.46 6993.48 3.73 0.09 6990.92 1.17 1.61 6992.56 2.81
3.80 6994.90 5.15 1.41 6992.34 2.59 0.78 6991.66 1.91 4.33 6995.43 5.66 4.62 6995 .I4 5.99
-2.35 6988.29 -1.45 1.19 6992.07 2.32
L3W5 1 - N5lu 3 L3N5 2 -MN31 L3115 2 - N51u 2
L3N5 2 - N5N3 3 L3N5 2 - N5M3 4 L3N5 3 - NH5 1 L3M5 3 - Mm3 2 L3u5 5 - win 3 L3U5 3 - NM3 4 LINS 4 - N5N3 2 L3N5 4 - NW3 3 L3n5 4 - N5M3 4 L3N6 1- MM31
L3N6 1 -MI132 L3N6 l- Mm3 3 L3n62-)Yn31 L3W6 2 - Iybll3 2 13u6 2 - WIU 3
t;:t f -%a34 -wm1
L3N6 3 - 16M3 2 L3@J6 3 - llLM3 3 L3N6 3 - N6R 4
L3U6 4 - N66113 2 L3r@ 4 ‘Mm33
k.3: r - - Nllu MM3 4 2 L3u7 2 - h7n3 3 L3N7 2 - N7k 4
tz x - - m7n3 k71u 2 3 L3117 3 - N7m 4 L3N7 5 - N7M3 5
L3N7 4 - 15713 2 L3N7 4 - NT113 3 L3u7 4 - MN3 4 L3N7 4 - N7lu 5 L3N7 5 - N7m3 3 L3N7 5 - N7lu 4 L5N7 5 - N7)13 5
P. PARENTE et al. L X-Ray 8Rtellito Energies
TABLE I. L X-Ray Satellite Energies of esTb, @,Ho, ,,,Yb, and ,lW (in eV) See page 387 for Explanation of Tables
fEaBful4 L-65 HOLMI un L-67 YTTERBIW z-70
5904.84 5904.11 5902.% 5906.24 5906.52 5905.79 9903.55 5903.63 5903.10 5900.24
:*;t 0:26 3.64
3-E 0:95 1.23 0.49
-2.36
6328.58 1.4s 6992.33 2.63 6327.51 0.71 6991.51 1.62 6326.52 -0.58 6990.19 0.44 6330.06 2.96 6993.97 4.22 b330.35 3.25 6994.2e 4.53 6329.58 2.4a 6993.46 3.12 6327.23 0.13 6990.93 1.18 6527.52 0.42 6991.24 1.49 6326.75 -0.35 6990.43 0.65 6323.76 -3.34 6987.24 -2.51
5901.58 -1.02 5903.12 0.52 5099.85 -2.75 5901.19 -1.41 5902.74 0.14 5900.27 -2.33 5899.61 -2.99 5900.95 -1.65 5902.49 -0.11 5900.03 -2.57
6325.17 6326.02 6323.34 6324.76 6326.40
zg-x: . 6324.49 6326.14 6323.51
-1.93 6988.16 -0.99 -0.28 6990.55 0.81 -3.76 6936.77 -2.97 -2.34 6950.30 -1.45 -0.70 6990.09 0.34 -3.52 6911.23 -2.51 4.02 69%.4(1 -3.27 -2.61 6988.00 -1.75 -O.% 6969.80 0.05 -3.59 6986.94 -2.81
3901.37 -1.23 6324.95 -2.15 6988.51 5902.92 0.32 6326.60 -0.50 6990.31 5900.45 -2.15 6323.97 -3.13 6907.45 5599.24 -3.36 6322.50 -4.72 6916.03 5902.35 -0.26 6325.68 -1.42 6919.63 5902.07 -0.53 6325.37 -1.73 69909.27 5698.60 -3.80 6321.09 -5.21 6905.50 5901.90 -9.70 6325.20 -1.90 6919.09 5901.63 -0.98 6324.89 -2 -21 6988.74 59Ol.W -0.79 6325.12 -1.91 6919.03
-3: -2:3O -3.71 -0.12 -0.47 -4.25 -0.66 -1.01 -0.72
5896.67 -3.93 6321.76 -5.34 6985.35 -4.40 5901.77 -0.83 6325.06 -2.06 69W.94 -0.61 5901.543 -1.10 6324.75 -2.34 6968.59 -1.16 5901.68 -0.92 6324.98 -2.12 69W.18 -0.87 5902.11 -0.50 6325.42 -1.68 6989.33 -0.41 5901.83 -0.77 6325.11 -1.99 6980.98 -0.77 5962.02 -0.59 6325.34 -1.76 6909.27 -0.411
TUNCSTEN L-74
ENERGY SHIFT
7955.57 33.21 1949.39 27.02 7976.94 54.59 7959.05 36.71) 7926.22 5.81 7955.19 33.43 7931.90 15.54 1966.43 44.01 7940.66 18.30 7966.22 45.61
7950.33 21.98 7V78.W 56.50 7%6.23 25.87 1930.34 7.90 ?950.67 36.51 7924.96 2.60 7V27.72 1.36 lV23.47 1.12 1926.23 7926.46
7925.50 7927.07 7926.09 lV29.01 7926.16 lV20.56 1926.16 7917.31 7931.22 7925.00
?VM .22 7926.76 1920.56 lV26.76 1927.89 z’91;*f:
1924193 1921.bS 7923.56
lV26.17 7923.31
3.68 4.13
3.15 4.71 3.73 6.66 4.43
-1.79 4.43
-4.99 8.07 2.65
8.67 4.43
-1.79 4.43 5.53 2 5.43 .a2
2.58 -0.70
1.20
3.81 0.96
7925.16 2.61 1927.71 5.42 7924.92 2.56 7924.lC 1.79 7928.35 6.00 7Y26.66 6.33 1vao.35 -2.00 1924.56 2.21
1924.09 2.54 7V24.01 1.65 lV22.50 0.14 792b.Ti 4.35 7V27.04 4.69 7926.15 3.80 7923.27 0.92 792S.bO 1.25 7922.12 0.37 7919.00 -3.36
7920.65 -1.51 7923.12 0.16 7Vl8.40 -3.96 7920.25 -2.11 rvi2.rr 0-G 7916.92 -3.44 19AihOl -4.34 7919.06 -2.49 79d2.13 -0.23 7918.53 -3.82
1920.53 -1.82 7922.610 0.44 1919.20 -3.15 7917.38 -4.98 7921.95 -0.41 7921.43 -0.93 7916.61 -5.69 7V21.24 -1.12 7920.12 -1.63 1921.24 -1.12
1016.46 -J.67 IO21105 -1.30 7920.53 -1.32 7921.05 -1.31 7921.55 -0.80 792i.03 -1.32 7921.55 -0.80
TRAhSIlION EEERGY SHIFT ENERGY SHIFT ENERGY SHIFT
6262.43 22.44 6707.10 6215.47 15.47 6100.46 6262.43 22.44 blOl.b6 6255.41 15.47 bb96.42 6249.90 9.91 6690. % 6216.80 36.81 6118.99 62S2.22 12.23 6693.39 6219.13 39.13 6121.42 6200.97 40.98 6723.20 6241.51 1.58 6688.29
7399.03 29.72 7391.31 22.06 1392.60 23.29 7384.94 15.63 1381.39 12.01 7411.13 41.82 7383.98 14.67 7413.73 44.41 7415.35 4b.04 7318.15 8.84
6245.65 6253.53 6265.63 6213.51 6265.19 6253.53 6245.21 6248.20 6267.11 6259.10
5Rb 13.54 25.64 33.52 25.19 13.54
z: rt:1a 19.79
66W.32 6+694.51 6707.19 bf 15.38 blo6.73 6694.51 bbns.86 bb89.11 6108.89 6701.15
26.58 19.35 20.55 13.31
9.85 37.87 12.28 40.30
‘:-: .
5.21 13.39 26.08 34.26 25.61 13.39
4.14 8.00
27=11 20.03
1376.13 6.62 7384.16 15.45 7398.35 29.04 1406.98 37.61 7391.85 28.54 7384.16 15.45 1315.63 6.32 7319.28 9.97 1400.21 30.94 7391.99 22.68
6261.00 21.00 6108~10 27.59 7400.06 30.14 6267.30 27.51 6109.13 28.02 7400.35 31.04 6210.98 30.98 67 12.75 31.64 1404.20 34.89 6249.90 9.91 6696.13 9.62 7380.15 11.44 6253.30 13.38 66%.35 13.24 1384.60 15.29 6261.56 21.56 6102.81 21.16 1393.63 24.32 6263.63 23.63 6105.10 23.98 1396.08 26.77 6211.81 31.a1 6113.62 32.50 7405.10 35.79 6259.61 19.61 6100.91 19.79 7391.64 22.33 6255.33 15.33 6696.34 15.23 1386.65 17.34 6243.13 3.13 bb113.64 2.52 7373.18 3.87 6243.51 3.52 6484. OS 2.% 7373.68 4.37 6242.14 2.75 6683.25 2.14 1372.83 3.52 6242.30 2.31 6682.79 1.68 1312.33 3-02 6241.54 1.54 6681.99 0.88 1311.49 2.17 624 1.60 1.61 6682.07 O.% 7311.59 2.28 6243.13 3.73 6684.29 3.18 7373.96 4.64 6242.07 2.08 6682.56 1.45 1372.12 2.80 6244.19 4.20 bb84.18 3.67 1374.48 5.11 6246.85 6.85 6681.52 6.41 1311.34 8.03
L3N1 1 - NlM 1 L3Nl 1 - hlM4 2 L3Nl 2 - NM4 1 L3hl 2 - Ml114 2 L3N2 1 -kZMl L3NZ 1 - MUM 2 L3N2 2 - N2M4 1 L3N2 2 - &?M 2 L3N3 0 - WM 1
L3N3 1 - KW4 0 13113 1 - N33M 1 L3N3 1 - h3JIw 2 L3N3 2 - N3M 1 L3N3 2 - WII* 2 L3N3 2 - h3W 3 L3&3 3 - &3M 2 L3N3 3 - N3M 3 L3N4 0 - NM4 1 L3N4 1 - N4M 0
L3N4 1 - NW4 1 L3N4 1 - wllc 2 L3N4 2 - MM 1 L3N4 2 - WN4 2 L3N4 2 - w4 3 L3N4 3 - NW4 2 L3N4 3 - MM4 3 L3N5 1 - NW4 1 L3N51- MN4 2 L3)kS 2 - NW4 1
LUIS 2 - NM4 2 L3N5 2 - Nm4 3 L3h5 3 - N5M 2 L3NS 3 - H511* 3 L3M 3 - Nsm 4 L3NS 4 - MM4 3 L3N5 4 - NW4 4 L3N6 1 -N6M41 L3N6 1 - h6M4 2 L3N6 2 - N6114 1
~3N6 2 - NM4 2 L3N6 2 - N61(4 3 L3N6 3 - nbm 2 L3M 3 - *a* 3 L3W 3 - mu4 4 L3N6 4 - WM 3 LlN6 4 - N6M 4 L3U7 2 - NW4 2 L3Wl 2 - ntn4 3 L3Nl 3 - NlU4 2
L3Nl 3 - klM 3 L3Nl3 - N7M 4 L3Nl 4 - MM 3 L3Nl 4 - hlN4 4 L3N7 4 - klM 5 L3Wl 5 - wIn4 4 L3Nl 5 - &III+ 5
F. PARENTE et al. I, X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of =Tb, 67H~, ,,,Yb, and 74W (in eV) See page 387 for Explanation of Tables
TERBIUM l-65 HOLlu w L-61 YTTERBlW z-70
6238.15 -1.24 b679w05 -2.% 6240.01 0.02 bb80.31 -0.75 6242.04 2.05 6682.48 1.31 6243.60 3.61 6684.13 3.01 6245.64 5.65 6686.24 5.13 6243.36 3.31 6683.87 2.7b 6242.04 2.05 6682.48 1.37 6239.71 -0.23 6680.11 -1.00 6246.01 6.02 6686.65 5.54 6234.13 -5.86 6674.23 -6.88
7368.32 7369.71 7371.q* 1313.11 7375.95
;;;:‘z: 7369:44 1316.42 7363.19
-0.99 0.39 2.63 4.40 6.64 4.14 2.63 0.13 7.11
-6.12
6245.94 6240.05 6244.68 6238.79 6244.68 6240.04 6245.93 6242.31
t3:z’“u” .
6241.01 6242.49 6242.69 6244.11 6241.66 6241.48 6238.96 6236.51 6240.31 6236.13
5.95 6686.51 5.46 13lb.33 1.02 0.06 bbao, 43 -0.69 7369.80 0.40 4.68 46 8s. 24 4.13 73l4.90 5.59
-1.21 h679.10 -2.02 T3b8.31 -0.95 4.68 6685.24 4.13 1314.90 5.59 0.04 6680.41 -0.10 1369.18 0.47 5.93 6686.56 5.45 131b.32 1.01 2.32 b682.77 1.M 7312.21 2.96 4.00 6684.54 3.42 7314.15 4.83
-0.67 6679.64 -1.48 13b8.91 -0.40
1.02 6681.40 0.28 2.50 66822.94 1.83 2.70 6683.17 2.05 4.18 6684.71 3.60 1.67 6682.09 0.97 1.49 6681.88 0.76
-1.03 6679.25 -1.86 -3.48 6676.64 -4.47
0.31 6680.69 -0.43 -3.87 6676.22 -4.89
7370.18 7312.43 1312.68 7314.32 7371.53
33x:-f X 7363:bS 7310.01 1365.19
1.47 3.11 3.31 5.01 2.22 1.97
-0.82 -3.66
0.76 -4.12
6239.92 -0.07 6680.27 6238.16 -1.84 6618.37 623968 -0.31 b6no.01 6237.91 -2.08 6418.11 6240.11 0.11 6681.12 6238.34 -1.66 6618.11 6241.13 1.14 b681.58 6231.81 -2.12 6618.08 6239.38 -0.42 6679.68 6237.42 -2.57 6611.60
-0.w -2.14 -1;11 -3.01
-2":: 0.46
-3.03 -1.44 -3.52
1369.61 7367.51 13b9.31
;;;o’* sf . 13b1.73 7311.05 1361.23 13b8.95 73b6.69
0.30 -1.80
0.00 -2.10
1.23 -1.58
1.14 -2.08 -0.3b -2.62
6238.93 -1.06 b679.19 -1.92 t3b8.41 -0.90 6239.86 -0.13 b480.18 -0.93 7369.48 0.17 6238.80 -1.19 6619.06 -2.06 7368.26 -1.05 6239.14 -0.25 6b6G.05 -1.07 73b9.33 0.02 6237.66 -2.33 6611.8s -3.26 7366.9b -2.36 624G.07 0.08 6680.41 -0.71 7369* 13 0.41 6238.00 -2.00 6678.21 -2.91 7361.35 -1.96
401
lUNGSlEN t-74
ENERGY SHIFT
83b7.79 31.95 8359.55 23.71 Ub4.83 24.99 8352.60 1b.76 8348.89 13.05 8381.01 45.17 6351.71 15.87 8383 .a3 47.99 (1365.14 49.30 6344.84 9.00
0342.15 6.91 6351.98 16.14 83bb.79 30.95 ki3lb.03 40.19 83bb.25 30.41 8351.98 16.14 8342.20 6.37 8346=36 10.52 0368.92 33.09 8359.97 24.13
8368.11 32.87 a348.82 32.98 6372.90 37.14 6347.67 11.83 W51.82 15.99 8361.52 25.68 kUb4.2i 28.42 6313.95 38.11 8359.411 23.64 ((353.95 18.12
8339.40 3.65 0340.26 4.44 61339.35 3.51 (u38.79 2.95 8331.8b 2.03 6338.02 2.18 8340.63 4.79 6338.61 2.11 a3*1.22 5.38 8344.34 8.50
8334.38 -1.46 0335.89 0.05 8336-32 2.48 9340.3) 4.49 8342.7b 6.92 6340.04 4.20 8336.32 2.48 8335.60 -0 24 8343.4 7 7.63 b320.70 -7.14
6343.37 7.53 8336.07 0.23 6341.75 5.91 0334.45 -1.39 8341.15 5.91 6336.05 0.21 6343.35 7.51 633U.63 3.00 d340.91 5.07 aA35.04 -0.79
8337.12 1.28 6336.95 0339.27
3.11 3.43
-41.09 8337.99 d331.bb 8334.56 8330.91 (U36.5b 8330.32
0335.96 8333.19 8335.57 0332.19 8337.21 U333.46 8331.66 8332 -94 6335.07 8332.23
0334.37 (u35.12 :x
8332154 (133b.04 8333.04
5.2s 2.15 1.82
-1.28 -4.92
0.72 -5.52
0.12 -2.66 -0.27 -3.05
1.31 -2.38
2.04 -2.90 -0.77 -3.61
-1.47 -0.12 -0.30 -1.66
-3.30 0.20
-2.80
TRANSflIoU
L3Wl I - NW5 2 L3Nl 2 - NH45 2 L3111 2 - MN5 3 L3N2 1 - a2Ns 2 L3N2 2 - N2Ns 2 L3M2 2 - n2M5 3 L3m3 0 - IuN5 1 L3N3 A -IuIul L3Iu I - MiNS 2 L3a3 2 - n3M5 1
~3~3 2 - 4115 2 L3N3 2 - M3M5 3 L3N3 3 - N3NS 2 L3N3 3 - M3N5 3 L3N3 3 - N3N5 4 L3N4 0 -wlNSl L3N4 1 -rnmil L3N4 1 -MN52 L3N4 2 - IWMS 1 L3N4 2 - M4lB 2
L3N4 2 - N4115 3 L3N4 3 - MM5 2 L3N4 3 - N4#5 3 L3N4 3 - N4N5 4 L3N5 1 - RSNS 0 L3NS 1 - RSNS 2 L3N5 2 - IlStt5 2
LY15 4 - NSNS 4
L3Nl 1 - NM5 2 L3Nl 2 - NlNS 2 tz:: : - - 11115 N2N5 2 3
L3N2 2 - N2NS 2 L3N2 2 - N2NI 3 L3N3 0 - N3N5 1 L3N3 1 - WNS 1 L3N3 1 - WNS 2 L3N3 2 - WNS 1
L3N3 2 - 113115 2 L3N3 2 - N3NS 3 L3N3 3 - N3N5 2 L3N3 3 - h3J115 3 L3N3 3 - wns 4 L3N4 0 - Mns 1 L3N4 1 - N4N5 1 L3h4 1 - NINS 2 L3N4 2 - MM5 1 L3N4 2 - N4N5 2
L3N4 2 - N4M5 3 L3NI’ 3 - NM5 2 L3N4 3 - N4N5 3 L3N4 3 - t&N5 4 LfNS 1 - N5N5 0 L3NS 1 -Nsm!il L3NS 1 - NW5 2 E: f - - #Ns MN5 2 1
L3N5 2 - N5M5 3
L3NS 3 - N5N5 2 L3N5 3 - 1615 3 L3N5 3 - MM5 4 ;gS’ f - N5N5 3
-lusNs* L3N5 4 - NM5 5 L3N6 1 - N6M5 0 L3N6 1 - NM5 1 L3N6 1 - h6HS 2 L3N6 2 - NbNS 1
L3N6 2 - N6N5 2 L3N6 2 - i3~6
MN5 3 3 - wn3 2
L3N6 3 - NM5 3 L3N6 3 - h6N5 4 L3N6 4 - NM5 3 L3&6 4 - NM5 4 L3N6 4 - NM5 5 L3Nl 2 - NlN5 1 L3N1 2 - NtN5 2
L3Nl 2 - NW5 3 LyIl 3 - 111115 2 L3Nl 3 - Nt& 3 L3N7 3 - NtN5 4 L3Nt 4 - htN5 3 L3Nt 4 - 117115 4 L3Nt 4 - NtM5 5
F. PARJNTFI et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of =Tb, 6,H~, ,oYb, and ,,W (in eV) See page 387 for Explanation of Tables
TERIIUN 2’65 HoLM1ua 2-1 VTTERBIUN 2dO TWIGSTEN 2*?4
ENEAW SHIFT ENERW SHIFT ENERCV SHIFT ENERGY SHIFT
6200.06 6208.06 6298.60 6290.45 6300.76 6295.% 6303.19 6263.66
tft:-:: .
:%-z 6291149 6216.02 6300.11 6295.42
tz-f: . 6211.84 6291.32
12.00 6737.35 12.60 6131.31 23.35 6142.28 23.20 6144.46 25.52 6746.91 20.11 6141.90 21.94 6749.34 -1.38 6112.46 16.23 6736.95 12.61 6133.33
16.43 10.39 21.36 23.51 26.00
t:-z 46 16.03 12.42
7435.67 10.19 6410.62 20.35 1429.24 12.36 64i1.66 13.40 7440.66 23.96 6421.36 25.91 1443.35 26.41 6427.25 28.18 7445.95 29.07 6430.07 31.60 1440.63 23.15 6424.33 25.86 7446.33 31.45 6432.32 33.65 7409.10 -7.18 6309.93 -8.54 7434.91 10.02 8417.49 19.02 1431.32 14.44 6413.91 15.51
36.22 6157.62 20.75 6741.62 16.23 6136.95
0.17 6720.94 25.46 6746.49 20.11 6141.26 19.99 6141.06 23.46 6144.10 12.59 6733.34 16.07 6136.97
36.90
E-3 0:os
25.57 20.35 20.l6
:;=z 16:05
1457.13 40.25 8441.54 7440.32 23.44 (1423.65 7434.91 18.02 6411.49 1410.10 I*22 6399.60 1444.91 26.03 a426.13 7439.80 22.92 6423.15 1439.61 22.13 (H2L .94 7443.46 26.56 6427.10 7431.35 14.41 64A3.99 7435.21 10-32 6418.15
43.01 25.16 19.02
1.13 29.66 24 .b9
ft l rt 15:52 19.68
6299.50 24.25 6745.46 6290.13 23.28 6144.52 6306.71 31.46 61S3.04 6294.51 19.26 6140.33 6200.01 12.16 6733.44 6305.41 30.16 6151.57 6201.61 12.56 6733.17 6291.01 22.81 6743.91 6304.(19 29.64 6151.02 6206.41 13.16 6133.75
24.57 23.60 32.12 19.41 12.52 30.65 12.25
',:-: . 12.63
1444.23 27.35 6421.04 29.31 7443.21 26.39 ~8426.09 28.42 7452.29 35.41 6436.50 36.11 7430.02 21.94 6422.11 23.64 7431.34 14.46 8413.63 15.36 7450.54 33.66 6434.45 35.98 1430.94 14.06 6413.29 14.83 7442.42 25.54 6425.13 27.26 7449.95 33.07 6433 .a 35.35 7431.49 14.61 6413.62 15.35
62lt.06 2.61 6722.60 6276.65 1.40 6121.54 6211.02 2.57 6322.76 6273.33 3 .OB 6123.31 6216.80 3.55 6123.60 6276.21 2.96 6123.19 6219.72 4.47 6724.75 6212.88 -2.37 6117.59 6216.16 1.51 6121.62 6216.40 1.22 6721835
1.09 0.62 1.64 2.39 2.09 2.27
-j3:E 0.11 0.44
1419.99 3.11 8401.61 3.15 1410.64 1.16 6400.13 1.66 1419.93 3.05 6401.54 3.07 7420.55 3.61 6402.26 3.81 142 1.08 4.20 6402.66 4.40 7420.42 3.54 6402.1+ 3.66 7422.05 5.17 6403.93 5.41 7414.42 -2.46 6395.49 -2.96 7418.66 1.60 6400.14 1.61 7410.43 1.55 8399.92 1.46
6200.36 5.10 6125.30 4.4t 1422.69 5.61 6404.51 6.11 6280.15 4.09 6125.11 4.25 7422.4t 5.59 8404.33 5.87 6216.16 1.11 6121.62 0.11 7413.66 1.80 8400.14 1.61 6216.55 1.30 6721.41 0.49 7410.46 1.58 83YY.YO 1.43 6216.59 1.34 6721.45 0.53 1410.49 1.61 dS99.92 1.46 6276.29 1.04 6121.16 0.24 t418.22 1.34 6399.16 1.29 6276.22 0.07 6121.06 0.11 7416.14 1.26 6399.66 1.19 6271.96 2.73 6122.93 2.01 7420.11 3.23 6401.66 3.39 6274.96 -0.29 6119.15 -1.16 7416.71 -0.17 6390.04 -0.43 6216.12 1.41 6121.60 0.68 1418.68 1.80 8400.24 1.17
6216.25 6211.91 6219.50 6216.69 6269.83 6261.93 6215.02 6213.94 6212.06 6200.60
3.00 2*12 4.25
. 4.:
6.66 -0.23
3.69 -3.21
5.55
6723.20 2.20 7420.39 3.51 6722.91 2.00 1420.10 3.22 6124.52 3.60 1421.81 4.93 6121.79 0.01 1410.89 2.01 6114.42 -6.50 7411.06 -5.63 6727.03 6.11 7424.44 7.55 Cl 19.64 -1.06 7416.03 -0.05 6723.09 2.91 7421.07 4.19 61l6.10 -4.22 7413.46 -3.42 6125.84 4.92 7423.15 6.2t
8402.15
:t",:: . 6400.50 0391.76 0406.66 6306.19 6402.01 6394.4Q 64Ud.l6
3.68 3.38 5.28 2.03
-6.11 8.19
-0.21 4.40
-4.06 6.70
6273.12 -1.53 6710.47 6202.49 1.24 6121.61 6275.69 0.64 6120.14 6279.19 4.54 6724.17 6273.20 -2.06 67 17.91 6218.42 3.20 6723.31 6212.52 -2.13 6117.17 6272.63 -2.42 at17.49 6214.44 -0.01 6119.20 6272.44 -2.81 6711.07
-2.45 6.69
-0.11 3.66
-3.01
-3:: -3.43 -1.71 -3.04
1415.36 7425.04 7417.77 7422.01 1414.14
Tt:i-:: 7414:25 7416.12 1413 .I9
-1.52 6396.55 -1.92 8.16 6401.31 8.64 0.69 0399.23 0.77 5.13 6403.60 5.41
-2.14 6395.60 -2.61 3.63 6402.22 3.75
-2.97 6394.51 -3.90 -2.63 6394.96 -3.50 -0.77 6391.32 -1.15 -3.09 6394.36 -4.10
6214.05 6274.14 6273.61 6214.50 6215.01 6214.92
tz:-3: m:::8’
.
6273.42 6273.93 6272.91 6216.37 6212.64 6216.24 6272.85
-1.20 6716.19 -2.13 1415.65 -1.23 6396.1 L -1.75 -0.51 67&q. 52 -1.40 7416.44 -0.44 6391.69 -0.78 -1.44 6110.52 -2.40 7415.36 -1.52 6396.33 -2.14 -0.15 6119.25 -1.66 1416.15 -0.13 u91.30 -1.16 -0.24 6119.00 -1.12 1416.75 -0.14 6396.06 -0.40 -0.33 6719.71 -1.20 1416.66 -0.22 6391.91 -0.49
0.16 6720.26 -0.66 7411.26 0.38 6390.73 0.27 -1.95 61 lt.99 -2.93 1414.19 -2.10 6395.62 -2.84 -3.90 6115.82 -5.10 7412.43 -4.45 6392.56 -5.69 -0.87 67 19.13 -1.76 7416.04 -0.64 6397.23 -1.23
-1.63 6116.10 -2.62 7414.89 -2.00 6395.6b -2.61 -1.32 6113.65 -2.27 7415=50 -1.36 6396.53 -1.94 -2.28 67 17.61 -3.31 7414.35 -2.53 6394.95 -3.52
1.12 6121.24 0.32 7418.31 1.43 e400.OY 1.63 -2.41 6t 17.46 -3.44 7414.20 -2.66 0394.16 -3.70
0.99 6721.11 0.19 7416.16 1.26 6399.90 1.44 -2.40 6717.48 -3.44 1414.19 -2.69 6394.72 -3.75
TRANSITION ENERGY SHIFT ENERGY SHIFT ENEffiY SHIFT
L3N? 5 - h7115 4 L3N7 5 - N7M5 5 L3h7 5 - htR5 b L3Hl I - UN1 0 L3111 1 - WlNl 1 L3M 2 - MN1 1 L302 1 - N2Nl 0 L312 1 - M2Nl I L3lu. 2 - (UN11 L3113 a - 113Nl 1
L31(3 1 - M3Nl 1
:3:: : - - W3Nl H3Nl 2 1 13113 2 - 13Nl 2 L3l(3 3 - II3N1 2 L3M4 0 - hl4Nll L3114 1 - MN1 1
t$i: : - - U4N1 MN1 2 1 L3W4 2 - I1+Nl 2
LLz: : - - ll5Nl M4Nl 2 2 L3M5 2 - 115Ni 2 13115 2 - MN1 3 L3R5 3 - 11511 2 L3H5 3 - MN1 3 L3115 4 - n5Nl 3 L3Nl 1 - NAN1 0 L3N2 1 - N2Nl 0 L3N2 1 - N2Nl 1
L3N2 2 - N2Nl 1 L3N3 0 - h3Nl 1 L3N3 1 - N3Nl 1 L3N3 1 - WNl 2 L3N3 2 - N3Nl 1 L3N3 2 - N3Nl 2 L3N3 3 - N3Ni 2 L3N4 0 - N4Nl 1 L3N4 1 - N4Nl 1 L3N4 1 - N4Nl 2
L3N4 2 - WNl 1 L3N4 2 - N4Nl 2 L3N4 3 - N411 2 L3N5 1 - NfNl 2 L3N5 2 - MN1 2 L3N5 2 - N5Nl 3 L3N5 3 - N5Nl 2 L3N5 3 - A561 3 L3N5 4 - N5Nl 3 L3Nb 1 - NbNl 2
L3N6 2 - NbNl 2 L3N6 2 - WJi 3 L3hb 3 - NbNl 2 L3N6 3 - N6Nl 3 L3N6 4 - N6Nl 3 L3N7 2 - f9Nl 3 L3N7 3 - NtNl 3 L3Nt 3 - N~NI 4
t::; t - - NtNl NtNl 3 4
L3N7 5 - NtNl 4 L3Wl 1 - 01x2 1 L3Ml 2 - Mm2 0 L3111 2 - MlNt 1 L3)IZ 1 - M2N2 1 L3M2 2 - UNl 0 L3M2 2 - (I2N2 1 L3113 0 - UN2 2 L3113 1 - N3N2 1 L3R3 1 - I(3N2 2
L3113 2 - R3N2 1 L3113 2 - M3N2 2 L31U 3 - UN2 1 L3113 3 - M3N2 2 L3114 0 - MN2 2 L3114 1 - MN2 1 L3M4 1 - mN2 2 L3M 2 - MN2 1 L31(4 2 - MNl 2 L3M4 3 - M4N2 1
L3R4 3 - M4N2 2 L3115 1 - ll5N2 2 L3bl5 1 - M5N2 3 L3115 2 - M5N2 2 L3115 2 - MN2 3 Lyl5 3 - USN2 2 L315 3 - H5N2 3
6276.58 6213.19 62tbAO 1147.58 7155.52 7155.52
;:::-g 7159123 7176.91
1.32 b721.16 0.54 1410.56 1.67 -2.07 6717.84 -3.08 7414.50 -2.30
1.15 6721.29 0.31 7418.40 1.52 38.6b 7615.6b 42.91 0496.91 46.27 46.59 7683.96 51.21 0505.76 55.13 46.59 7677.92 45.17 6499.34 48.70 49.12 7602.93 50.10 8504.82 54.18 41.90 7661.14 48.99 8503.56 52.92 50.30 7604.17 51.42 8506.15 55.51 67.98 7702.34 b9.58 0524.96 14.33
7141.59 32.6b 7665.4b 32.71 0405.74 35.10 7143.06 34.93 7667.83 35.00 0406.26 31.62 7161.57 52.64 7606.33 53.58 6507.96 51.32 1163.84 54.91 tb38.70 55.95 8510.48 59.04 7143.86 34.93 7667.63 35.06 0488.26 31.62 71b5.08 56.16 7690.18 57.42 8512.29 61.66 7164.90 55.96 7689.99 57.24 8512.10 61.46 7164.14 55.21 7689.20 56.44 8511.26 60.62 7157.51 46.58 7602.2b 49.50 8503.65 53.21 7156.74 47.62 7661.46 40.70 8503.00 52.36
7 163.96 55.03 7171.52 62.59 7153.92 44.99 7155.09 46.1b 7164.17 55.25 tM5.34 56.41 7148.06 39.93 7114.09 5.16 7123.82 14.69 7117.05 8.12
7609.01
Et-“~ 7679:61 7689.14 7690.35 7613.06 1631.10 7641.29 t640.23
56.26 64.01 45.64 46.06 56.39 57.60 40.33
4.35 14.53
7.47
8511.06 8519.15 0499.55 05OQ.84 8511.03 8512.32 8493.61 0456. ii 0466.90 0459.40
60.42 68.51 48.92 50.21 60.39 b1.68 43.23
5.47 16.34
8.04
7117.52 6.59 7640.72 7114.50 5.57 7637.55 7107.66 -1.26 1630.39 7120.76 11.83 7644.01 7111.26 2.33 7634.15 7124.35 15.43 7641.77 7120.7b 11.83 7644.01 7117.22 6.29 1640.41 7117.15 8.22 7640.33 7113.78 4.0b 76 36.82
7.97 4.19
-2.36 11.26
1::: 11.26
7.6b 7.58 4.07
0460.00 9.36 8456.50 5.94 0440.94 -1.69 84b3.36 12.12 6452.95 2.31 0467.31 lb.73 04b3.36 12.72 8459.bb 9.02 8459.51 0.w 0455.04 5.21
7115.88 b.% 7639.00 6.25 0450.14 1.51 7112.52 3.59 7635.49 2.74 0454.41 3.77 7113.77 4.84 763b.01 4.m 0455.83 5.19 7113.36 4.43 7636.41 3.66 0455.44 4.00 7110.30 1.45 7633.27 0.52 8452.07 1.43 7114.35 6.43 7638.46 5.11 0451.50 b.94 1112.06 3.13 7635.04 2.29 8453.91 3.33 1117.04 0.11 7640.23 7.40 0459.40 8.u4 7114.34 5.42 7637.40 4.65 6456.44 5.80 7109.80 0.88 7632.74 -0.01 8451.59 0.95
7109.42 0.49 7632.32 -0.43 1101.06 -1.01 7630.69 -2.06 7109.17 0.25 T632.06 -0.70 7101.62 -1.31 7630.43 -2.32 7108.04 -0.66 7630.89 -1.87 7107.63 -1.30 7630.46 -2.29 1101.16 -1.74 tb29.98 -2.78 7109.24 0.31 7632.13 -0.63 7107.06 -1.87 7629.84 -2.91 7109.11 0.18 7631.99 -0.16
8451.13 0449.39 0450.83 0449.10 0449.61 0449.11 0448.63 0450.92 0448.48 8450.17
0.49 -1.25
0.20 -1.54 -1.03 -1.47 -2.01
0.28 -2.16
0.13
7 109.44 1230.09 7231.02 7230.09 7238.65 7232.39 1240.97 7255.13 1221.20 1220.41
7632.35 -0.40 8451. lb 0.52 7704.17 47.68 8594.06 51.35 77w.10 42.61 8509.46 45.95 7750.13 41.64 8500.43 44.92 7769.46 52.97 8600.69 57.18 7762.86 46.39 0593.62 50.11 7771.89 55.40 0603.20 59.77 770b.98 70.49 8618.80 15.29 7750.94 34.45 8580.46 36.95 7750.11 33.62 8579.51 36.06
;:t:-:: 7221:20 7220.41 7243.75 7241.45 7243.57 7234&b
z-:t .
7243.40 7250.44 7249.06 7232.34 7232.26 7243.09 7242.51
0.51 43.22 44.14 43.22 51.77 45.51 54.10 66.65
Ef .
54.31 53.51 34.32 33.53 56.86 54.57 5b.70 47.16 49.30 54.39
7771.01 55.32 0602.68 59.17 77 to. 98 54.49 8601.79 58.29 7750.94 34.45 0580.46 36.95 775O.11 33.62 8579.57 3b.Ob 7774.66 58.17 86O5.9b 62.45 7772.2b 55.11 8603.40 59.09 77 14.48 57.99 0605.77 62.26 7764.52 48.03 0595.14 51.63 7766.74 50.25 0597.51 54.00 7712.08 55.59 8603.20 59.70
56.52 7774.30 63.51 7761.55 62.96 7780.94 45.97 7763.15 45.30 77b2.54 56.22 7773.89 55.63 7773.28
57.01
2-g .
4b.bb 46.05 57.40 56.79
8605.57 62.06 0613.09 69.59 8612.44 68.93 6593.50 49.99 8592.85 49.34 8b04.98 61.47 6604.32 60.82
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of dJTb, s7Ho, ,,,Yb, and 7,W (in eV) See page 387 for Explanation of Tables
TER0IUM 2-65 nolJuum Z-67 YTlER0IUH I.*70
403
TUMGSTEN z-14
CNER&Y SliIFl
6400.41 1.94 039‘5.22 -3.25 0400.31 1.84 9654.63 50.44 Yb64.39 60.20 9b57.43 53.24 9663.55 59.35 9662.11 57.97 9664.90 60.79 9004.44 00.24
96k2 .QI 37.85 %**.6Q 40.61 %6b.O9 61.90 96bO.US 6k.66 9644.00 40.61 9b71.15 66.95 9670.93 66.14 967O.Ol b5.81 9b61.90 57.79 9bb1.06 56.06
%69.8O 65.60 cM18.15 73.96 9b50.99 52.80 9659.+1 54.21 %b9.43 65.23 9670.84 66.65 96!iO.c)5 4b.65 %lO.5b 6.37 9622.40 16.20 9614.32 10.13
96i4.91 10.12 9611.11 6.92 9602 .b6 -1.53 %lY.Zb 14.07 9601.14 2.90 9b22 .lQ 18.51 9610.26 14.07 +614.01 10.42
961k.51 10.32 9610.42 6.23
9612.0~ 6.10 9600.81 4.61 9610.41 6.22 9609.9b 5.17 9606.11 1.98 9612.21 8.01 %00.32 4.13 9614.35 10.16 9blO.92 6.12 96Ob.W 1.84
%OS.CI) 1.24 YaO3.36 -0.83 9605.04 0.85 %02.97 -1.22 9603.64 -0.55 9603 .A0 -1.10 %02.39 -1.80 9605.13 0.94 %02.2Q -1.99 9604.94 0.75
9b05.44 1.25 9 7b+. Ii 55.96 9750.00 50.13 915i.15 49.00 9111.30 62.b3 9tb3.4b 54.11 9174.19 65.44 9709.90 01.23 9140.51 39.02 9741.59 36.84
9772.62 63.86 9711.63 62.68 9148.57 39.02 9741.59 38.04 9ttb.50 67.75 9773.66 64.93 9776.29 67.54 9tb4.73 55.90 Ytbt.34 58.59 9773.4r 64.72
9176.08 67.33 9703.02 75.07 97u3.10 74.3k 9162.66 53.91 9tbl.94 53.19 9tt5.io bq.34 9174.31 65.62
404
TRANStflW ENERGY SHtFT EWES7 sntn ENERGY SHtFf ENERGY SHIFT
L3NS 4 - WM2 2 L3N5 4 - NSM2 3 L3N1 1 -NtN21 L3Nl 2 - MlN2 0 UN1 2 - NlN2 1 L3N2 2 - N2N2 0 L3N3 0 - MN2 2 L3N3 1 -N3N21 L3N3 1 - NW2 2 L3N3 2 - 13112 1
L3N3 2 - &3N2 2 L3N3 3 - N3N2 1 L3N3 3 -N3N22
tz: f - - WIN2 MM2 2 1 L3N4 l- wN2 2 L3N4 2 - M4N2 1 L3N4 2 - #N2 2
7226.62 7226.03 7195.50 7201.07 7194.30 7t92.13
;:tt-t: ;;;;I;;
.
7193.43 7193.41 7109.83 7200.12 7107.89 7200.03 7186.63 1193.78 Tia1.86 7200.03
39.74 77%=62 39.15 7756.01
b.b3 7724.47 14.19 7730.27
7.42 7723.21 3.26 7720.99 9.79 7723.69 6.33 7t22.23 2.93 7l1b.33
10.12 ti2b.01
40.13 39.32
7.98 13.78
6.72 4.30 9.20
Z:Z 9.33
8386.32
zx b539:ol 8331.31 8349.21 8334.14 bMO.IC 8346.51 8354.43
43.02 9733.10 46.33 42.36 9734.3b 43.63
9.36 9119.33 10.57 13.31 9725.99 17.24
8.01 9717.84 9.09 3.71 9713.47 6.71
10.63 9120.73 11.97 6.94 9116.34 7.19 3.00 9712.20 3.33
10.94 9120.98 12.22
6.33 7722.29 3.80 8330.31 6.33 7722.23 3.77 8330.44 2.95 7713.33 2.02 8344.51
13.24 7729.34 12.83 b538.08 1.01 77 lb.37 0.08 0544.30
13.17 7129.26 12.77 8538.00 -0.25 7713.24 -1.23 8343.06 11.91 7727.93 11.44 6536.36
1.00 7716.33 0.06 8544.48 13.16 7729.23 12.76 6337.98
1.01 6.94
a::: 0.99
14.49 -0.44 13.0b
0.97 14.47
9716.72 7.96 9716.34 7.79 9712.20 3.53 9123.23 16.48 97LO.34 1.39 9723.13 16.39 970H.73 -0.03 9723.51 14.76 9710.33 1.38 9723.12 16.36
iaN 3 -0u21 L3N4 3 - N4N2 2
L3N3 1 - M3N2 2 L3N3 1 - MSN2 3 L3NS 2 -wN22 L343 2 - MN2 3 L3k3 3 L3N5 3 I :zi f ~2~5 4 - k3N2 2 L3N3 4 - N3N2 3 L3N6 1 - MN2 2 L3N6 1 - N6N2 3
L3W 2 - MM2 2 L3N6 2 - NbN2 3 ~3~6 3 - N6N2 2 L3Nb 3 - MN2 3 L3N6 4 - N6N2 2 L3N6 4 - MbM2 3 L3Nt 2 - M7rU 3 L3N7 2 - N7N2 4 L3N7 3 - NW2 3 L3N7 3 - N7N2 4
L31i7 4 -qN23 L3N7 4 - NIti 4 L3N7 3 - k7M2 3 L3N7 3 - &TM2 4 L3Nl 1 - UN3 I L3Ml 1 - NlN3 2 L3Ml 2 - NlN3 1 L3Nl 2 - i3N2 i
*1N3 2 -Nitii
L3N2 1 - N2N3 2
L3N2 2 - N2N3 1 t.3112 2 - N2N3 2 L3M3 0 - tl3N3 2 L3M3 1 - IuN3 1 L3N3 1 - N3N.3 2 L3N3 I- N3N3 3 L3NJ 2 - 113M3 0 UN32-83M31 L3N3 2 - Jt3N3 2 L3W3 2 - N3N3 3
L3M3 3 - IuN3 1 L3N3 3 - ION3 2 L3M3 3 - N3M3 3 L3N4 0 - N4N3 2 Lu14 1 - (UN3 1 urn 1 - M4N3 2 L3114 I - mM3 3 L3N4 2 - MM3 0 L3M 2 - N4N3 1 L3N4 2 - N4N3 2
L3M 2 - N4N3 3 LJN4 3 - MN3 I LY(4 3 - l&M3 2
L3N3 1 - N9N3 2 L3MS l- IeN3 3 L313 2 -N3N3 1 L3113 2 - R9N3 2 L3N5 2 - )13N3 3
L3N3 2 - M3M3 4 L3n3 3 - HsM3 1 L3M3 3 - MSM3 2 L3fis 3 - NSW 3 L3H3 3 - M3M3 4 L3M5 4 - M3N3 2 L3)lf 4 - II%3 3
F.PARENTE etal. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of wTb, 67Ho, ,oYb, and ,4W (in eV) See page 387 for Explanation of Tables
7ERbtUN Z-13 IlDLNtUW Z-b7 Yn6nbtw4 z-70 TUMGSTEN L=74
7194.64 7.7b 7723.38 7192.58 3.70 7721.43 7191.63 4.70 7720.44 7189.59 2.72 7718.29 7193.34 6.46 7722.21 7191.28 4.40 7720.06 7190.64 3.77 7719.38 7188.38 1.71 7717.23 7183.33 -1.53 7713.97 7189.09 2.22 7717.90
7.09
2::
::fi
t-:3 . 0.74
-2.51 1.41
8551.90 6.47 8549.10 6.19 8348.61 3.11 8346.33 2.83 8330.31 7.01 8548.23 4.72 8547.47 3.97 6343.19 1.69 834l.lt2 -1.68 0346.01 2.30
9718.33 Yli6.03 9714.14 97L2.24 Yr16.bb 97L4.39 9713.45
%l”’ f S . 9712.40
9.70 7.28 3.99 3.49 a.13 5.63 4.70 2.20
-1.32 3.63
7104.96 llbb.71 7184.12 11bb.47 7181.14 7183.09 7187.03 7186.00
;::“,*g .
7186.46 7185.43 7x86.81 7183.76 7267.31 1269.39 7267.31 7269.39 7273.69 7272.94
-1.91 77 13.36 -2.93 8341.36 -2.13 9706.84 -1.92 1.83 7717.48 0.99 8345.33 2.04 Qlll.LO 3.03
-2.16 7713.29 -3.20 6541.04 -2.44 9706.45 -2.30 1.59 7717.22 0.73 b343*23 I.74 9711.42 2.66
-1.73 77l3.73 -2.74 8341.38 -1.93 9707.12 -1.63 2.0) 7717.68 1.19 0343.76 2.26 9712.09 3.33 0.17 77l3.76 -0.73 8343.73 0.22 9709.6 r 0.92
-0.88 7714.66 -1.83 8342.33 -0.93 9708.21 -0.49 -0.27 7713.27 -1.21 6343.19 -0.32 9108.97 0.22 -1.32 7714.17 -2.32 8342.02 -1.49 9707.56 -1.19
-0.40 -1.43 -0.07 -1.12 43.48 43.36 43.48 43.36 49.67 48.92
77 13.14
3;:~JZ 7714:40 7806.22
T,“2% 7802: 13 7809.02 7808.23
-1.33 8343.04 -2.43 8341.67 -0.99 8343.43 -2.09 8542.26 47.87 8645.09 49.83 6647.18 41.83 8639.67 43.79 b640.76 30.b6 8646.23 49.88 8647.40
-o&b -1.64 -0.07 -1.2s
::*33 . 43.02 47.11 34.38 53.73
97D0.76 0.03 9707.37 -1.38 9709.28 0.33 9707.b7 -0.88 9033.45 36.43 9835.74 38.76 9626.49 49.30 9828.80 31.81 9637.12 60.12 983b.20 39.20
7276.02 7275.26 7292.30 1282.08 7256.98 7262.08 7270.62 7282.06 7276.96 7282.06
52.00 31.24 68.28 38.06 32.96 38.06 46.60
Xi-X: 30:04
7811.43 33.09 6630.83 57. lb 9639.93 62.94 78 IO*66 32.31 8649.99 36.34 9839.02 62.02 78 28.16 69.M) 8668.10 74.43 9657.6% 80.68 77%=60 30.23 8634.52 40.67 YUZ1.51 44.31 7791.28 32.93 8628.88 35.23 9613.29 38.29 7796.60 38.23 0634.32 40.87 YU21.31 44.51 7803.36 47.20 8444.11 SO.46 9d3A.70 54.70 ta17.47 39.12 8636.74 63.09 9845.55 68.5b 7812.13 33.80 8631.10 57.43 9639.33 62.34 7817.47 39.12 0636.74 63.09’ 9843.33 68.36
7262.08 38.04 77%.bO 30.23 8634.32 40.87 9821.31 44.31 1236.98 32.% 7791.28 32.93 8628.68 33.23 Yb13.29 38.29 7262.06 38.06 77%.60 38.23 8634.32 40.07 9821.51 44.31 7282.50 38.48 78 lb. 10 39.13 6637.63 64.00 9646.03 69.83 7280.29 56.27 7813.81 37.43 6633.23 61.3U 9644.19 67.19 7282.32 38.30 78 17.92 39.37 8657.46 63.81 9846.62 69.62 7280.04 36.02 78 13.33 37.20 8634.94 61.31 9843.90 66.90 7271.63 47.61 7bO6.tb 48.40 bb43.58 31.93 9833.73 36.73 7272.90 48.87 7800.07 49.72 6646.97 33.32 9835.24 se.24 7274.93 30.91 7810. lb 31.83 8649.20 33.33 9637.67 60.67
7272.65 48.63 7bOt.82 49.46 8646.70 53.06 9834.95 37.93 7280.11 56.09 78 13.42 37.27 0633.03 61.38 9843.98 66.93 72112.13 38.13 ?I II. 74 39.311 8637.27 63.62 9646.41 69.41 1279.81 33.83 7b 13.37 37.02 8634.77 61.12 9043.69 66.69 72b5;43 61.41 7821.011 82.13 8660.60 67.03 9649.66 72.67 7289.31 63.29 78 23.12 66.76 8664.94 71.29 9634.31 77.32 7289.10 6S.08 7824.90 66.33 8664.72 71.07 9634.07 77.08 1267.b3 43.80 7802.48 44.33 8641.08 47.44 982b.SA 31.31 7271.71 47.68 7bo6.12 48.36 8643.34 31.70 9033.16 56.16 7271.30 47.47 1801.30 40.13 8643.13 s1.4b 9832.92 53.92
727I.34 727b.06 72bl.96 7281.73 7281.79 7265-a 72b3.27
47.32
Et:,“, 37.73 37.77 41.46 41.23
7806.34 48. lb 8643.13 51.30 9832.95 53.93 78 13.43 33.07 6632.56 38.91 9040.94 63.94 7817.46 39.10 6656.82 63.17 9645.59 68.59 7b17.24 50.89 8436.60 62.93 9045.33 68.35 7817.21) 38.93 8636.b3 62.90 9645.36 60.38 7800.19 41.83 8638.37 44.72 9825.60 46.60 7799.97 41.62 0638.15 44.30 9825.36 48.36
TRANSITION ELERW SnIfl LNERGV SHIFT ENERGV SHIFT
L3RS 4 - MN3 4 L3N1 1 - NlN3 1
LL::: : - - NIN3 NlN3 2 1 L3Nl 2 - klN3 2 L3NP A - N2~3 1 LO)12 1 - N2N3 2 L3N2 2 - ~2~3 1 L3N2 2 - N2N3 2 LjN3 0 - N3N3 2
L3N3 1 - N3N3 2 L3N3 2 - N3N3 0 L3N3 2 - N3N3 2 L3N3 3 - N3N3 2 L3N4 0 - N4N3 2 L3N4 1 - h4N3 1 LON4 1 - wN3 2 L3N4 1 - R4N3 3 L3N4 2 - h4N3 0 L3N4 2 - N4N3 1
L3N4 2 - WN3 2 L3N4 2 - N4N3 3 L3N4 3 - wN3 1 L3R4 3 - N4N3 2 L3N4 3 - WN3 3
7265.31 41.29 70OO.01 7226.55 2.53 7759.09 1239.64 15.62 7773.51 1225=34 1.32 7758.63 1230.44 14.42 7712.25 7233.04 9.02 7767.51 1230.26 6.24 77b33.79 7234.31 10.29 77608,OO 7230.13 6.71 7764.20 7236.02 12.00 7769.76
41.66 1.54
%: 13:w
9.15 5.43 9.65 5.92
11.40
0638.10 44.53 0596.04 2.4O 0610.46 16.01 6594.70 1.05 abo9.11 15.4b 8601.16 10.51 0600.22 6.57 8bO4.68 11.03 8600.15 7.10 0606.48 12.03
7229.18 7225.72 7232.76 7229.18 7232.33 1228.95 1232.26 7220.06 7229.11 7221.60
:*:9" a:75 5.16 a.31 4.93
t-2 do9 3.66
7762.60 77593.02 7766.36 ?tb2.bO 7765.95 7162.43 1765.80 7762.33 nb2.58 7761.10
4.25 0.M a.01 4.25 1.60 4.07
3% 4.23 2.14
8598.85 5.20 8595.09 1.44 0b02.06 9.21 8590.05 5.20 8602.51 0.06 0590.76 5.11 8602.42 a.77 8590.66 5.01 8598.90 5.25 0597.33 3.60
7230.99 7227.59 7220.93 7232.24 7228.84 7224..11 7234.62 7226.95 7221.19 7231.63
6.97 3.57
d-x: . 4.02 0.15
10.60 2.93
-2.03 7.61
7764.55 6.19 8600.99 7761.00 2.65 8597.23 7762.41 4.Ob 0590.75 7765.06 7.51 0602.41 7762.32 3.% 8598.65 7757.49 -0.06 8593.57 7768.37 10.O2 8605.10 17bO.30 2.03 859b.64 7734-35 -4.00 8590.21 1765.23 6.88 8601.74
7.34 3.58 5.10 8.76 5.00
-0.08 11.45
-5:z 8.09
L3N5 1 - NSN3 1 L3N5 1 - NSN3 2 L3NS 1 - MN3 3 L3N5 2 - hSN3 1 L3N5 2 - WIN3 2
L3NS 2 - NSN3 3 L3N5 2 - N5N3 4 L3N5 3 - NSN3 1 L3N5 3 - NSN3 2 L3N5 3 - NSN3 3 L3NS 3 - N5N3 4 L3NS 4 - hSM3 2 L3N4 4 - NW3 3 L3N5 4 - NSN3 4 L3N6 I - 116113 1
L3N6 1 - NbN3 2 L3N6 1 - N6N3 3 L3N6 2 - MN3 I L3N6 2 - NbN3 2 L3N6 2 - NbN3 3 L3R6 2 - WN3 4 L3N6 3 - N6N3 1 L3N6 3 - N6N3 2 L3N6 3 - N6N3 3 L3N6 3 - N6N3 4
L3N6 4 - R6N3 2 L3N6 4 - WN3 3 L3N6 4 - N6N3 4 L3N7 2 - N7N3 2 L3N7 2 - N7N3 3 L3N7 2 - N7N3 4 L3N7 3 - 117~3 2 L3N7 3 - N7N3 3 L3N7 3 - N7N3 4 L3N7 3 - N7N3 5
L3N7 4 - NlN3 2 L3N7 4 - N7N3 3 L3N7 4 - N7N3 4 L3N7 4 - N7N3 5
- N7N3 3 - h7N3 4
L3N7 4 - N7N3 5 L3Nl 1 - NlN4 1 L3Nll - luN4 2 LJNl 2 - NlN4 I
L3Nl 2 - NW4 2 L3N2 1 - NtN4 1 L3N2 1 - (UN4 2 L3N2 2 - NtN4 1 L3R2 2 - R2R4 2 L3N3 0 - N3N4 1 L3R3 1 -MN40 L343 I- N3N41 L3N3 1 - N3w 2 L3R3 2 - N3N4 1
L3l43 2 - N3N4 2 L3R3 2 - N3N4 3 L3R3 3 -R3N42 L3R3 3 - #WI 3 L3R4 0 - MN4 1 L3R4 1 - mN4 0 L3N4 1 - MN4 1
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of =Tb, B,H~, 70Yb, and 74W (in eV) See page 387 for Explanation of Tables
IERaIUN Z-65 HOLNIUR l-b? VTlER0WR L-IO
7223.96 -0.06 7751.24 -1.11 8593.28 -0.37 7236.34 12.31 7770.13 11.77 8101.92 13.27 7222.81 -1.15 7756.12 -2.23 8592.11 -1.54 7233.32 9.30 1767.00 8.6s 8603.63 9.99 7225.64 1.62 7759.01 0.66 8595.17 1.53 7230.02 14.00 7171.90 13.54 0600.02 15.17 7230.62 6.60 7164.17 5.02 8600.60 6.95 7222.95 -1.01 7756.18 -2.17 0192.14 -1.51 7235.32 11.30 7769.06 10.71 abo5.70 12.13 7222.06 -1.16 715b.15 -2.21 8592.18 -1.47
7224.10 0.08 1157.45 -0.90 0593.57 -0.01 7226.44 2.42 1759.89 A.54 8596.18 2.53 7222.48 -1.55 1755.73 -2.62 0591.72 -1.93 7223.72 -0.31 7757.03 -1.32 8593.11 -0.54 1226.05 2.03 7159.48 1.12 059s.71 2.06 7222.42 -1.60 7755.67 -2.68 8591.66 -1.99 7222.23 -1.79 7755.47 -2.09 0591.42 -2.22 7223.41 -0.55 175b.77 -1.59 0592.02 -0.83 7225.81 1.79 7759.21 0.86 0595.42 1.77 7222.11 -1.85 7755.41 -2.95 8591.37 -2*28
7223.90 -0.13 7757.23 7226.23 2.21 7759.61 7222.60 -1.42 7755.07 1220.31 -3.71 7753.49 7225.36 1.34 7758.77 7224.15 0.12 1757.50 7219.87 -4.15 7753.OI 7224.92 0.90 1758.29 7223.70 -0.32 7757.O2 7225.64 1.62 7739.03
-1.13
42 -4.06
0.u -0.05 -5.35 -0.07 -1.34
0.60
8593.33 -0.32 8595.93 2.28 8591.80 -1.77 8589937 -4.28 8594.98 1.33 8593.64 -0.01 8588.83 -4.82 8594.45 0.80 0593.10 -0.55 8595.23 1.58
7219.74 7224.19 7223.57 7225.51 7225.12 7223.90 7225.04 7395.42 7394.96 1395.42
-4.20 0.77
-0.45 1.49 1.10
‘Ef . 45.03 44.57 45.03
7152.07 7750.15 77#.80 7758.90 77sa.51 7751.24 1759.25 1943.08 1943.39 7937.84
-5.40 -0.20 -1.47
O-54 0.16
-1.11
4::z 49.01 43.46
8508.69 0594.30 0592.95 0595.08 8594.69 0593.35 8595.47 0790.01 0797.49 0791.58
-4.% 0.65
-0.70 1.43
-AS 1.82
53.19 52.b7 46.76
7394.% 7399.32 7400.63 7401.65 7402.55 7420.M 1383.70 7305.24 7387.33 7405.22
44.57 48.93 50.23 51.26 52.56 70.17 33.31
3Zf 54:03
56.92 54.63 36.93 34.65 60.68 40.69 60.50
7937.35 42.97 0791.07 46.24 7944.20 49.90 8790.60 53.70 794Lb4 Sl.Zb 8000.05 55.23 1946.71 52.33 8801.2O 56.37 7940.07 53.69 8002.65 51.02 796b.17 71.w 0821.39 76.57 7927.60 33.30 8760.45 35.62 7929.29 34.91 0702.17 37.34 1931.40 37.10 8704.51 39.b9 1950.16 55.78 0004.39 59.56
7467.31
;;t'l-g 73&4 7411.07 7399.08 7410.89
7952.35 7949.96 w31.40 7929.09 795b.44 7943.91 7956.26
xx: 37:10 34.71 62.06 49.53 61.87
800b.73 61.91 10013.76 67.11 8004.17 59.35 A0010.90 b4.25 0704.51 39.69 9989.71 43.06 8701.95 37.12 9986.66 40.21 8011.29 66.47 lOOA9.00 12.43 0797.96 53.14 iOOO4.20 57.55 0011.10 66.28 AOOl0.0b 12.22
405
TUNGSTEN 2114
ENERGY SHIFT
9825.39 40.39 9700.30 3.30 9795.90 18.91 9778.81 -1.0t 9794.42 17.42 9709.re i2.18 9704.92 1.92 9769.76 12-76 9705.fU 8.51 9791 .bO 14.61
9103.16 6.16 9779-18 2.10 9707.59 lO.bO 9t03.16 b.16 9787.45 10.46 9703.37 6.37 9701.35 10.36 9763.25 6.25 9703.44 6.45 9701.75 4.15
9785.74 0.74 9701.63 4.63 9183.35 6.35 9707.34 10.34 9793.i3 -6.23 9177.68 0.68 9790.25 13.26 9101.95 4.05 9773.09 -3.11 970b.46 9.47
9777.26 0.26 9792.10 15.10 97lb.01 -O.Qb 9100.61 11.61 9719.40 2.40 9194.25 11.25 9705.11) 8.10 9775.97 -1.03 9790.61 13.82 9776.25 -0.74
9771.87 0.00 97YO.90 3.91 9775.65 -1.34 9717.27 0.27 9700.30 3.31 9775.57 -1.43 9775.27 -1.73 9776.80 -O.ll 9779.92 2.92 9775.18 -1.82
9777.55 0.56 9180.59 3.59 9775185 -1.15 9772.09 4.11 9719.49 2.49 9777.91 0.91 9172.10 -4.82 9710.70 1.70 9717.20 0.20 9779.69 2.69
9771.99 -5.00 9770.59 1.59 9777*01 0.01 9719.50 2.50 9779.09 2.09 9777.51 0.51 9700.00 3.01
19004.06 58.21 10004.28 57.63
9997.90 51.25
9997.32 50.67 lOOO5.70 59.05 lOOO1.31 bO.66 lOOO6.51 61.86 lOO10.13 b3.48 10029.49 82.84
9905.20 36.55 9981.10 4O.4) 9909.71 43.06
lOOl1.15 64.50
406
lRAHsIfIoN
i3N4 1 -N4N42 L3la4 2 - N4n4 1 L3N4 2 -MN42 L3N4 2 - mN4 3 L3N4 3 -N4N42 L3N4 3 - MN4 3 L3N5 1 - Iem 1 L3I5 1 - N5N4 2 L3N5 2 - R5N4 A L3115 2 - en4 2
L3N5 2 - llsn4 3 L3N5 3 - N5N4 2 L3N5 3 -N5N43 Lu(5 3 - WSIY 4 L3115 4 - N5N4 3 L3N5 4 - N5n4 4 L3Nl 1 - NW4 1 L3Nl 1 - NlN4 2 13Nl 2 - NlN41 L3Nl 2 - hln4 2
L3N2 l- N2wIl L3N2 I - N2m 2 L3N2 2 - N2N4 1 L3N2 2 - N2N4 2 L3N3 0 - N3N4 I L3N3 1 - N3N4 0 L3N3 1 - N%+ 1 L3N3 1 - N3N4 2 L3N3 2 - NW44 1 L3N3 2 - N3m 2
L3N3 2 - N3N4 3 L3N3 3 - N3N4 2 L3N3 3 - UN4 3 L3N4 I -mm0 i&4 i - WIN4 2 L3N4 2 - wru 2 L3N4 3 -mN42 L3N5 1 - Y5N4 1 L3N5 1 - NSN4 2 L3N5 2 - N5N4 A
L3k5 2 -N5N42 L3N5 2 - N5N4 3 L3k5 3 -N5N42 L3N5 3 - h5N4 3 L3N5 3 - N5N4 4 L3h5 4 - NSNC 3 ~3N5 4 - N5N4 4 L3Nb 1 -MN41 L3Nb 1 - h6N4 2 L3N6 2 - N6N4 1
L3k6 2 - NbN4 2 L3W6 2 - kbN4 3 L3Nb 3 - MN4 2 L3Nb 3 - MN4 3 L3Nb 3 - WN4 4 LOW6 4 - N6N4 3 ON6 4 - Nbw 4 L3N7 2 - N7ti 2 i387 2 - N7wI 3 L3N7 3 - )t7N4 2
L3N7 3 - N7N4 3 L3k7 3 - N7N4 4 L3N7 4 - k7N4 3 L3N7 4 - N7N4 4
‘,3:: : I $E : L3N7 5 - N7N4 5 L3Ml 1 - NlN5 2 L3Ml 2 - MlNS 2 L3Nl 2 - NlNS 3
L3N2 1 - M2N5 2 L3N2 2 - N2N5 2 L3N2 2 - WN5 3 L3M3 0 - H3N5 1 LO113 1 - N3N5 1 UN31 -KM52 L3N3 2 - 113N5 1 L3R3 2 - MN5 2 L3N3 2 - mN5 3 L3N3 3 - N3N5 2
L3113 3 - N3N5 3 L3N3 3 - MOW5 4 L3N4 0 - N4N5 1 L3114 1 - MN5 1 L3N4 1 - MN5 2 L3114 2 - MN5 I L3R4 2 - N4N5 2
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Bay Satellite Energies of &I%, 6,H~, mYb, and ,*W (in eV) See page 387 for Explanation of Tables
YTTERBIUn Z-70 TER8lU 2-65 nolN1u L-b7 TUNCSTEN L-74
EkEMY SWIFT EN~ICY SHIFT ENERGY SHIFT ENEREY SHIFT
7405.00 7403.50 7397.61
~2s MU:::: 7415:ZO 7395.84 7397.60
54.61 7950.11 55.73 8804.57 59.74 10011.56 64.92 53.11 7948.52 54.14 8802.84 58.02 low9.9I 47.22
63.27 1942.31 41.99 8796.31 51.49 10002.61 55.97
53.11 7948.52 54.14 8802.84 58.02 10009.91 63.27 54.43 7949.92 55.54 3a04.37 59.55 10011.35 64.71 60.32 79%. 07 61.69 8810.91 66.08 iooia.b5 72.00 63.95 7958.31 b4.43 8813.64 68.a2 lOiul.04 74.39 64&l 7960.66 66.28 8815.62 70.79 AO023.23 76.59 45.45 1940.42 46.03 8794.05 49.23 9999.66 53.23 47.21 1942.26 47.88 6196.02 51.20 lOUO2.08 55.43
7399.13 48.74 1943.86 7407.85 57.46 7953.00 74G9.38 53.99 1954.61 7406.77 56.38 7951.88 7392.90 42.51 7937.34 7390.29 39.90 7934.60 7360.70 10.31 7904.07 7357.34 6.95 1903.56 7359.50 9.11 7902. ei 7356.13 5.74 78W.30
49.48 58.62 60.23 57.49 42.95 40.22
‘6’3 a:43 4.92
8797.73 52.91 lQOOJ.99 57.34 8807.50 62.48 10014.51 67.06 0809.21 64.39 10016.42 69.71 8806.29 61.41 lou3.17 6b.52 8790.76 45.93 9996.42 49.78 0787.84 43.02 9993.17 4b.52 8755.92 11.10 9959.35 12.70 6752.19 1.37 9955.27 8.62 0154.57 9.75 Y957.8b 11.22 8150.84 6.02 9953.7a 7.13
1353 .a0 7365.15 7353.46 7365.62 7360.46 7355.05 7353.62 7356.93 1357.21 7360.52
2.60 14.76
3.01 15.23 10.07
4.66 3.23
::8”1 10.13
1396.06 1906.15
Tgsc- 2 7993:32 7898.15 lB%.bl 7900.12 79ca.43 1903.88
1.68 8747.46 2.63 W50.18 3.53 14.31 8160.96 16.13 Y964.97 18.32
2.11 8747.98 3.16 9950.17 4.12 l*.ab 8761.48 16.66 Wb5.5b 18.91
9.44 8755.64 10.82 9959.01 12.37 3.77 8749.58 4.15 9952.26 5.61 2.28 8748.01 3.19 9950.5 7 3.92 5.13 8151.67 6.05 9954.58 7.91 6.05 8752.02 7.19 9955.OO 8.35 9.49 8755.68 10.85 9958.99 12.34
1357.12 1356.93 7353.53 7351.00 7357.52 7356.25 7351.50 7355.95 7351.06 1352.91
6.73 6.54
ix: 7:13 5.86 1.11 5.56 6.67 2.58
1354.07 7356.36 7355.76 7350.54 1354.34 7355.85
::::-g 1353:10 7345.12
3.68 b&b 5.36 8.15 3.94 5.45 1.25
-4.89 3.31
-5.28
1990.33 7900.12 7896.51 7393-w 7900.79 1899.46 7993.78 7899.20
Tz-~ .
7897.22 7990.I2 7698.99 7901.89 7897.51 7899.06 7894.61 7888.32 78%.90 1aa1.90
2: 2.19
-0.40 6.41 5.08 6.40 4.u 5.98 1.68
8751.92 7.OY 9954.88 8.23 0751.67 6.85 9954.55 7.91 6747.91 3.09 9950.45 3.80 6745.24 0.42 9947.77 1.12 8152.48 7.66 wss. 13 9.09 8151.05 6.23 9954.12 1.47 8152.41 7.64 9955.72 9.07 8150.83 6.00 9953.90 7.25 6152.06 7.23 9955.25 8.60 6747.47 2.64 9v50.11 3.46
2.84 8748.69 3.87 9951.46 4.81 5.14 8751.10 6.96 995t. 85 a.20 4.61 0750.59 5.77 9953.60 6.96 1.51 0753.60 8.85 9950.99 10.34 3.12 6149.02 4.19 9951.87 5.22 4.68 8750.64 5.82 9953.56 6.91 0.29 6745.98 1.16 9946.44 1.79
‘6.06 ai39.2a -5.55 9941.08 -5.57 2.52 8748.47 3.64 w51.79 5.14
-6.48 8738.81 -6.01 YC40.46 -6.11
7353.32 2.92 78%.49 2.10 6748.00 3.18 9951.10 4.54 7347.60 -2.79 7890.51 -3.87 8741.64 -3.18 9943.81 -2.83 7353.01 2.68 70%. 22 1.84 0741.71 2.88 9950.80 4.15 7347.35 -3.04 1890.24 -4.14 8741.34 -3.48 9943.4Gi -3.22 1356.55 6.16 7899.86 5.47 8151.55 6.73 9955.26 8.61 7347.70 -2.61 7390.10 -3.68 a741.86 -2.97 9944.10 -2.55 7356.91 6.58 7900.31 5.93 8152.01 7.24 9955.93 9.28 1348.80 -1.59 789i.78 -2.60 8143.00 -1.82 994.5.39 -1.25 1350.75 0.36 1093.82 -0.56 6745.18 0.36 9941.94 1.30 7348.36 -2.03 1891.30 -3.06 8742.41 -2.M 9944.69 -1.96
7350.31 -0.09 1893.34 7352.04 1.65 7895.16 7350.18 -0.21 1893.20 1351.92 1.53 1695.02 7348.30 -2.09 1891.24 7352.25 1.86 1095.38 1341.63 -1.16 7891.59 74Os.00 45.06 7954.96 7406.00 45.06 7948.92 7408.67 45.72 7949.b1
-1.04 0.78
-1.18
2:: 1.00
-2.19 49.31 43.27 43.97
0144.65 -0.18 9947.24 0.59 6746.58 1.76 9949.52 2.67 8744.50 -0.33 9941.05 0.40 0746.44 1.61 9949.33 2.69 6742.40 -2.42 9944.58 -2.07 8746.83 2.00 VP49 .a3 3.19 8742.79 -2.03 PPkS.06 -1.57 8806.67 52.74 10017.90 57.97 8800.25 46.31 10010.84 51.01 8800.90 47.05 10011.67 51.83
1413.37 1415.69 7415.32 143L.H 1396.22 7399 .bO 14 16.20 7419.59 7419.66 7399.60
50.43 52.75 52.38
68.60 33.20
$2 56.64 56.92 36.66
79Sb.90 51.25 8808.90 79S9.33 53.63 8811.49 7956.94 53.29 8811.09 7975.58 69.93 8828.21 7938.10 33.06 8189.05 7942.25 36.60 0792.83 7959.57 53.93 8811.27 7963. I2 51.47 8815.05 7963.41 57.76 8a15.36 1942.25 36.60 8792.83
3t-XI 57:Ls 74.34 35.12 38.89 57.34 61.11 61.42 36.69
IOU2U.47 60.63 lu1)23.20 63.45 10022.83 62.99 A 0040.45 80.62
9996.Ob 38.23 10002.27 42.44 10022.11 62.27 10021.32 66.48 15026.65 66.81 10042.27 42.44
7399.88
:z-g . 7419.64 7420.72 7411.64 1413.33
36.94 7942.54 36.89 8793.13 39.20 10002.60 42.77 36.21 7941.77 36.12 8192.32 38.39 10001.72 41.88 56.27 1962.89 57.24 8815.03 61.10 10026.54 6b.70 56.09 7962.71 51.06 8814.84 60.91 IoU26.32 66.49 51.78 7964.41 5a.a2 8816.71 62.78 uo28.40 68.57 48.70 7954.97 49.32 8806.56 52.65 10017.37 57.54 50.39 7956.73 51.08 86aa.4b 54.52 iOOlV.45 59.62
TRANSITIffl EkERGY SHIFT ENERGY SHIFT EWERGY SHIFT
:::t f - - ncm MN5 3 2 L31(4 3 - MN5 3 L3114 3 - MN5 4 L3nS 1 - WSNS 0 L3115 1 - MN5 1 L3115 1 * MN5 2 L3N5 2 - NSN5 1 L3N5 2 - NV6 2 L3nS 2 - NSNS 3
L3115 3 - N5N5 2 L3N5 3 - NSNS 3 L3N5 3 - NSNP 4 L3NS 4 - N5N5 3 L3N5 4 - N5NS 4 L3W5 4 - N5N5 5
7414.61 51.86 7958.27 52.63 7420.54 57.60 1964.20 58-M 7422.02 59.08 7965.83 60. la 74lY.51 56.57 7963.20 57.55 7418.82 55.68 7%2.40 56.75 7430.92 67.98 19ts.01 69.37 7424.01 61.07 1961.82 62.18 7413.32 50.38 795b.61 50.97 7406.41 43.47 7949.42 43.78 7415.18 52.24 7958.56 52.91
aa10.10 8816.52
I%:-:; 6014Z36 0827.74 8820.13 aaoa.14 aaoo.54 aalo.22
56. lb 62.58 64.23 61.44 60.42 73.ao bb.20 54.21 46.60 56.28
7416.66 53.12 t%o. 17 54.52 7425.43 62.49 7969.30 63.65 7418.83 55.w 1962.43 Sb. 79 7408.95 46.01 1952.03 46.38 7402.35 39.41 7945. lb 39.52 7401 .bL 44.61 79M.63 44.98 7368.69 5.75 19 10.40 4.75 7367.40 4.54 7909.14 3.49 7372.46 9.52 19 14.33 8.68 7371.52 3.58 1913.32 7.68
8812.01 aU21.69 8814.42 8003.24
I!‘,:;=:: . 9159.58 ma.23 9763.74 8162.73
48.08 67.76 60.49 49.31 42.04 47.81
5.65 4.30 9.81 8.80
L3Nl 1 - NlN5 2 L3Nl 2 - NW5 2 Lull 2 - NlN5 3 L3h2 1 - N2N5 2
L3N2 2 - N2N5 2 L3N2 2 - N2NS 3 L3N3 0 - h3NS 1 L3N3 1 - N3N5 1 L3n3 1 - N3N5 2 L3N3 2 - N3NS 1 L3N3 2 - N3NS 2 L3N3 2 - N3N5 3 L3N3 3 - N3NS 2 L3N3 3 - N3N5 3
L3N3 3 - N3N5 4 L3N4 0 - 114NS 1 L3N4 1 - MN5 1 ~3~4 I - NINs 2 L3N4 2 - h4NS 1 L3N4 2 - MN5 2 L3N4 2 - N4N5 3 L3h4 3 - N4N5 2 L3R4 3 - MN5 3 L3N4 3 - MN5 4
L3N5 I - NSNS 0 L3N5 1 - USN5 2 L3N5 2 - MN5 2 L3N5 3 - NSNS 2 L3N5 3 - NSNS 4 L3N5 4 - NSNS 4 L3Nb 1 - NbN5 0 L3Nb 1 - MN51 L3Nb 1 - N6N5 2 L3N6 2 - NbNS 1
L3Nb 2 - NbN5 2 L3Nb 2 - MN5 3 LyIb 3 - NbN5 2 L3N6 3 - MN5 3 L3Nb 3 - N6N5 4 L3N6 4 - MN5 3 L3Nb 4 - N6f45 4 L3Nb 4 - WI0 5 L3Nt 2 - NtN5 1 L3N7 2 - NlNS 2
L3N7 2 - N7NS 3 L3N7 3 - NtW5 2 L3N7 3 - KIN5 3 L3N7 3 - N7N5 4 L3N7 4 - N7N5 3 L3h7 4 - NtN5 4 L3N7 4 - NtNS 5 L3Nl 5 - N7N5 4 L3N7 5 - NtNS 5 L3N7 5 - NtN5 6
L3Nl 1 - NlN6 2 L3Nl 1 - NlN6 3 L3Nl 2 - NlMb 2 L3Nl 2 - NW6 3 L3112 1 - N2Nb 2 L3N2 1 - 11286 3 L3112 2 - 112Nb 2 L3N2 2 - N2Nb 3 L3M3 0 - N3Nb 2 L31u 1 - N3Nb 1
L3N3 I - N3N6 2
L3N3 1 L3N3 2 1 zz : L3N3 2 - luN6 2 L3#3 2 - n3Nb i L31(3 2 - 113NI 4 L3N3 3 - 113116 1
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of aJTb, s,Ho, ,,,Yb, and ,,W (in eV)
1PR01un 2-65 HOUlIUN Z-61 YTTERBIUM 1-70
7371.99 9.04 tYi3.81 1369.42 6.98 tYll.bt 7367.46 4.51 7909.14 7360.62 -2.32 7901.98 7371.04 a.12 1912.86 7364.21 1.27 t905.74 7374.66 11.72 19 16.62 7366.99 4.04 7908.63 7371Ab 8.12 ‘1912.86 7363.39 a.45 7904.67
8.17 6.02 3.49
-3.61 t.21
1::: 2.9a 7.21
-0.78
8763.26 9.33 0760.98 7.05 8758.25 4.31 8150.62 -3.32 at62.14 8.21 8754.62 O.bY 8766.15 12.22 at51 .b9 3.76 8762.14 a.21 8lS3.68 -0.25
7375.17 12.82 79 lt.tb 12.11 8767.33 13.39 7367.ao 4.85 7909.53 3.88 am.tl 4.78 7367.73 4.78 7909.45 3.80 8158.63 4.69 7360.03 5-W 79 10.61 4.% 8759.85 5.92 7366.46 3.52 1908.12 2.47 8757.19 3.26 1367 -57 4.63 7909.20 3.63 8158.42 4.49 7370.35 7.41 79 12. la 6.53 8761.51 7.57 1368.02 5.aa 7910.59 4.95 9759.04 5.91 ?371.60 8.bb 79l3.50 ?.a5 Etb2.92 8.99 1367.40 4.46 7909.11 3.4b 8158.26 4.33
7363.44 0.49 7904.93 -0.12 0153.88 7363.48 6.54 7911.23 5.59 8760.56 7366.49 3.55 79oa.10 2.45 8757.20 7366.10 5.23 tPoP.at 4.22 8759.10 7370.50 7.56 7912.29 6.64 0161.67 7367.81 4.86 7909.46 3.al 8159.64 7361.33 -1.61 7902.88 -2.77 a751.75 73bO.96 -1.98 t902.50 -3.15 9751.3b 1363.ba 0.46 7945.26 -0.39 8754.30 1360.58 -2.36 7902.08 -3. I? 8750.90
-0.ob
t-t: 5:17 7.74 4.70
-2.18 -2.58
0.37 -3.04
1363.22 0.28 7904.84 7363.98 1.04 7905.64 7362.91) 0.03 79o4.58 7363.74 0.79 7905.38 1364.10 1.76 79%. 39 7364.16 1.22 7905.84 7365.12 2.18 790b.85 7361.71 -1.23 7903.27 7357.22 -5.12 7898.59 7364.08 1.13 7905.16
-0.80
-xi -0.27
0.74 0.19 1.20
-2.38 -1.06
0.11
0t53.1)4 -0.09 8154.69 0.76 at53.54 -0.39 0754.40 O&b at55.47 1.54 8754.91 0.98 8755.99 2.05 at52.1t -1.76 a747.21 -6.72 0754.84 0.90
7360.29 -2.66 7901.00 -3.65 8750.64 -3.29 7363.63 0.69 7905.27 -0.31 8754.30 0.37 7359.84 -3.10 7901.32 -4.33 8750. LO -3.83 1361.53 4.98 1909.77 4.u 8159.00 5.14 1359.71 -3.23 7901. la -4.4b 6149.96 -3.98 7361.80 4.86 1909.63 3.98 8750.93 5.00 1359.12 -3.82 79ao.st -5.08 8149.31 -4.62 7368.13 5.19 7909.99 4.34 8759.32 5.39 7359.4s -3.49 7900.93 -4.72 8749.tO -4.23 7369.69 b&15 7911.61 5.96 8761.03 7.09
1556.5a 7557.60 7550.51 7557.88 1562.55
Z~f-E
:?8:‘:: 7541:45
48.66 8120.04 53.01 47.97 8119.29 52.27 48.b6 8114.00 46.97 47.97 8113.26 46.23 52.b4 ai20.49 53.41 54.22 8122.16 55.16 54.06 6122.92 55.90 56.54 6124.61 57.sY 74.20 8142.73 75.70 37.H 8104.44 37.42
t;:;% 99aa:1a 8987.36 WM.22 8q97.07 8997.61 8999.66 9018.39 09tt.bS
56.60 SS.78 50.17 4Y.36 51.22 59.07 59.81 61.66 80.39 39.64
7548.79 38.08 8105.86 3a.83 8979.11 41.16 7550.34 40.42 8107.50 40.48 W8O.W 42.96 75b7.43 57.52 8125.31 58.29 8999.67 61.06 75ba.n 58.86 8126.73 59.70 9001.39 b3.39 7570.32 60.40 8121.37 61.35 9003.18 65.18 7567.85 57.94 8125.75 58.72 9000.33 62.32 7547.45 37.54 8104.44 37.42 a9tt.65 39.M
See page 387 for Explanation of Tables
407
TuN6STEN L-74
ENERGY SHIFT
A0021 -2% 61.44 10028. AY 68.36 10030.02 70.18 10026.91 67.08 10025.13 65.29 10040.03 80.19 19431.56 71.73 loola.67 59.04 10010.41 so.57 10021.17 b1.34
LW22.64 63.01 10033.60 13.77 10025.52 65.69 10013.bl 53.71 uOo5.53 45.70 10011.95 52.12
Y9b6.60 6.96 YYb5.31 5.48 9911.34 11.51 Y970.36 10.52
9970.95 11.11 9968.45 8.61 9965.32 5.49 YYSb.67 -2.96 9969.45 9.61 YY61.31 1.48 Y Y 73.61) 14.05 9964.68 4.94 9969.45 9.61 9960.24 0.40
9975.09 15.25 YPb5.99 6.16 9965.89 6.06 YYbt.24 7.41 9964.26 4.44 9965.63 5.79 996Y.01 9.18 YYb7.23 7.39 9910.61 10.78 9965.49 Lb6
9960.64 0.81 Y9b8.00 8.16 9964.21 4.37 9966.35 6.52 9969.18 Y965.14
9.34 5.91
9958.42 -i.*i Y957.9a -1.85 9911.4A 1.58 Y957.38 -2.4s
99b0.81 0.97 Y961.81 1.97 9960.42 0.59 996L.42 1.58 YPb2.68 2.05 9962.09 i-25 9963.35 3.52 995a.87 -0.96 9953.04 -6.80 9961.99 2.16
9951.11 -2.73 9961.29 1.45 YY56.40 -3.43 Y966.84 7.01 9956.21 -3.62 YYbb.65 6.82 9955.51 -4.32 YY67.16 7.32 9950.01 -3.02 9969.10 9.21
lWJ4.71 61.17 10233.71 60.11 LO227.8& 54.22 1022b. 15 53.16 10235.43 61.83 U23l.PL 64.21 &02A8 -24 64.65 10240.63 67.03 l0250.13 86.14 10215.40 41.90
10211.34 43.75 10219.bl 46.01 Ao239.54 65.94 10241.39 67.79 10243.65 70.06 iO240.06 66.46 LO215.49 41.90
408
TRAhSITIOW ENEMY SHIFT IENERGV SHIFT ENERGY SHIFT
L3u 3 - n3w6 2 A3113 3 - n3Nb 3 LU13 3 -m3Nb4 LW4 0 -MNbZ L3M 1 -MN61 LY14 I - ww 2 LW4 1 -MNb3 LuI4 2 - MW 1 L3a4 2 -Hue2 L3114 2 - n4Nb 3
L3tt4 2 - M4Nb 4 L3n4 3 -MN61 L3M 3 - n4Nb 2 LW4 3 - ma 3 L3114 3 - MNb 4 L3U5 1 - MS& 1 L3H5 1 L385 1 1 y& f
L3n5 2 - n5Nb 0 L3115 2 - n5Nb 1
tzt f - - UNb NSNb 2 3 t3ns 2 - Iis* 4
tE2 i -n5Wl - nw 2
L3115 3 - n5Nb 3 L3(15 3 - W% 4 L3M 3 - a5Nb 5 L3NS 4 - row 2 L3115 4 -#5Nb3
Lul5 4 - R5Nb 4
tET i - - 115116 NlW s 2 L3Nl I - NlW 3 L3Nl 2 - NAN6 2 L3111 2 - NlNb 3 L3N2 1 -N&b2 L312 1 -wtw3 LWZ 2 - UNb 2 L3N2 2 - UNb 3
L3N3 0 -N3w2 L3N3 1 -IoWl L3N3 l- N3M6 2 L3N3 1 - N3Nb 3 L3N3 2 - N3Nb 1 L3N3 2 - UN6 2 L3N3 2 -N3Nb3 L3N3 2 - UNb 4 zx z - N3Nb 1
-N3Nb2
L3N3 3 - N3Nb 3 L3N3 3 - N3Nb 4 urn 0 - WIN6 2 L3N4 1 - MN6 1 L3N4 A - N4Nb 2 L3N4 I -k4Nb3 iwr4 2 -WNbl L3wI 2 -Nwb2 L3N4 2 - N4Nb 3 L3N4 2 - MN6 4
L3N4 3 - N4W 1 LJN4 3 - WlW 2 UN4 3 - NW6 3 3 : -MM4
-u5nbl L3N5 A - k5M 2 L3N5 1 - NSNb 3 L3N5 2 - WNb 0 L3N5 2 - NSUb I LJN5 2 - &SW 2
L3N5 2 - k5Nb 3 L3n5 2 - k5Nb 4 L3k5 3 - Nsw 1 LfN5 3 - N5Nb 2 L3N5 3 - NSNb 3 L3N5 3 - k5W 4 L3k5 3 -NSUbS L3N5 4 - NW6 2 Lms 4 - UN6 3 L3N5 4 - NSW 4
L3NS 4 - NW6 5 L3Nb 1 - MM 2 L3Nb 2 -mNbo L3Nb 2 - NbUb 2 L3Nb 2 - NbNb 4 L3Nb 3 - NbNb 2 L3Nb 3 - NbNb 4
F. PARENTE et al. LX-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of ,Tb, *,Ho, 70Yb, and ,4W (in eV) See page 387 for Explanation of Tables
lcnI1un Z-65 nOLN1 UM 2-67 VlTER8MM 2=70
1540.19 38.88 7550.34 40.42 1541.17 31.96 7572.37 62.45 7568.39 58.48 7572.19 62.27 1570.42 60.51 75bl.00 51.08 73b4.79 54.88 15b3.03 53.11
8105.ab 8107.50 8104m88 813o.bl 8126.44
X:tf:t . 8118.70 8122.15 8120.85
38.83 40.4Y 37.85 63.b4 59.41 63.4b bl.# 51.67 55.72 53.82
1565.&?
Tg:*t: 7510:25 1573.04 751b.91 751e.ss 1519.27 7559.06 7559.31
55.91 58*30 62.10 60.33 63.12 67db 68.67 69.36 49.15 49.46
t:E% 0130:30 0128.40 8131.41 8135.34 8137.05 8131.18 9116.61 8116.94
56.83 59.23 63.28 61.38
66:: 70.o2 70.76 49.59 49.91
s;B’x*:x . 8978.10 9005.85 9001.24 9005.65 9003.56 8992.90
xz;*3: .
8998.62 9001.04 9005-46 9003.36 9oob.69 9010.51 Y012.43 9013.23 8990.63 8990.98
41.16 42.96 40.10 67.84 63.23 67.65 65.55 54.98 59.39 51.30
60.62 63.04 67.4b 65.36 68.68 12.51 14.43 75.22 52.63 52.97
7560.98 51.07 7561.61 51.76 75b2.19 52.27 15b9.62 59.71 7571.23 61.32 1511.92 62.01 7572.44 62.52 157093Q 60.39 7554.75 44.84 7553.44 45.53
8118.65 8119.38
"B::x: .
X:x 015O:bl 8128.40 8112.12 8112.85
51.62 52.36
z-2 . 62.31 63.10 63.65 61.37 45.10 45.83
8992.84 54.84 8993.63 55.63 8994.23 56.22 9002.45 64.45 9004.32 46.31 9005.11 67.10 9005.10 67.10 9003.23 45.23 8985.86 41.86 8986.65 48.65
7555.w 7553.82 1520.29 7313.13 1519.08 7517.53 1517.38 7521.12 7511.85 7321.59
% .
‘t-31 ;:::
7:4b 11.21
7.93 11.68
8113.40 4b.38 8981.25 8111.13 44.10 8984.78 8076.59 9.51 8948.75 8074.96 7.94 0947.02 8075.33 a.30 8947.41 8073.70 6.61 8945.61 ao73.58 6.56 8945.60 0071.51 lo.40 8949.78 8074.07 7.05 8946.12 8018.00 10.97 8950.31
49.25 46.78 10.15
9.01 9.40
i*fi r1:7a
3.12 12.31
:;:t*z ;;::I;~
. 7118.05 7519.29 7521.63 1518.00 7514.4b 1515.10
12.62 8078.96 4.54 ao70.50 5.78 8071.80 8.12 8014.25 8.14 8014.26 9.38 8075.56
11.72 807th01 8.08 8014.21 4.54 8010.50 5.78 8071.80
11.93 3.48 4.78 7.22 1.24
1x:," 7.18 3.48 4.18
8951.21 8942.24 8943.64 8946.24 894b.25
:x-z”: .
zv:t . 8943.64
13.26 4.24 5.63 8.23 8.25 9.64
12.24 8.19 4.24 5.63
151a.w a.12 8074.25 7.22 7514.40 4.49 8070.44 3.42 7520.70 10.78 8017.09 10.01 7512.43 2.51 aoba.43 1.41 75201b3 10.71 ao77.02 9.99 7514.91 5.00 aoll.04 4.01 1511.17 1.25 8067.10 0.08 7519.36 9.45 8075.69 a.bb 7513.b5 3.73 aob9.71 2.ba 7522.84 12.93 8019.32 12.30
6944.24 8942.19 8949.36 8940.09 8949.28
Xtf f’ 2 . 8947.85 8941.48 8951.69
8.23 4.18
11.36 2.09
11.21 4.91 0.66 9.84 3.48
13.69
1512.41 7520.61 1314.90 7524.09 7516.12 1518.76 1519.52 1513.50
:::f% .
7516.53 7511.50 7514.81 1517.4b 7110.22 7519.18 1515.77 7514.16 7515.52 751b.49
2.50 10.10
4.98 14.18
z-e 9ZbO 3.58
x .
6.62 1.58 4.90 7.54 8.30 9.21 5.05 4.85 5.61 6.57
8ob8.42 8977.00 8011.03 8080.64
ii%% 8075:92 8069.60 8069.22 8071.99
1.39 9.98 4.00
13.61 5.34 a. 10
t:: 2.20 4.%
8940.08
S::tf-% 8953111 8944.31 8947.32 8948.17 8941.41 9941.01 8943.96
2.07 11.26
4.90 15.11 6.31 9.32
10.17 3.40 3.01 5.95
1513.07 3.16 7511.10 1.19 1506.19 -3.12 7510.12 0.80 1512.31 2.60 7510.48 0.56 1512.21 2.36
(1012.79 ao73.ao 8010.99 8073.76 m74m 56 8075.57 8071.99 807o.92
~~~ ii: .
8069. lb
fz= tt row:77 8068.bb aobb.51 8068.39
5.76 8944.81 6.81 6.71 8945 .a9 1.88 3.97 8942.91 4.91 6.13 8945.85 1.85 7.53 894b.71 8.10 a.54 8941.18 9.78 4.s 8943.97 5.97 3.90 a942.02 4.01 4.70 6943.67 5.67 5.71 8944.75 6.74
2.13 8940.93 2.93 0.16 6938.95 0.95
-5.01 0933.40 -4.61 -0.25 8930.49 0.49
1.63 8940.51 2.51 -0.52 8938.19 0.19
1.37 8940.22 2.21
lUNGSlEN L-74
ENERGY SHIFl
10211.34 43.75 lU2lY.61 46.01 10216.01 42.42 10246.83 13.24 10240.98 67.39 10246.62 13.03 AO24&1)4 10.25 10232.03 58.44 10231.67 64.08 Ao234. BY 61.30
10239.31 65.71 10240.77 61.18 10246.41 12.82 :gt2:5 . 74.45 70.04
10250.91 77.31 AO253.20 79.66 1&54,2l 80.64 lOLt9.36 55.76 AO229.75 56.16
10232.10 58.51 102A3.08 59.48 10233.84 b0.24 1024d.lY 68.59 10244.54 70.94 10245.51 11.92 1024b.27 12.68 10243.16 69.57 10224.54 50.95 10225.52 51.92
10226.28 52.68 10211.11 49.57 10185.44 11.84 1018h37 9.71 10183.95 10.36 10181~88 8.29 10181.84 8.25 10186*81 13.21 lUAi12.43 8.83 1oin1.40 13.80
10188.09 14.49 AOAlcl.02 4.43 10179.b4 6.04 lOl(u.67 9.08 1018Z.46 8.86 lJl84.08 10.48 10187.11 13.51 10182.37 8.78 loi78.02 4.43 AO179.64 6.04
10182.b7 9.08 AOA11.94 4.34 1018b.45 12.86 10115.64 2.05 10186.35 12.16 10118.98 5.39 10114.03 0.43 10184.13 11.14 10111.36 3.11 AOl(19.19 15.60
AOA15.b3 2.03 AOA86.34 12.14 10178.97 5.31 10190.80 17.20 lOl80.55 6.96 10183.99 10.39 lUA84.98 11.39 10117.21 3.61 lOllb.Tb 3.11 101no.19 6.60
10181.19 1.56 lOLb2.45 8.86 10178.91 5.31 10182.34 8.74 10183.34 9.14 lOA84.60 11.00 10180.12 6.53 10178.91 5.31 lal79.90 6.31 10181.16 7.57
10176.b9 3.09 AOA75.14 1.55 lOlb8.18 -5.41 10174.54 0.95 10177.05 3.46 10174.15 0.56 A01 16.47 3.07
TRINSITION ERERGY StllFT ENERGY SHIFT ENEROY SHIFT
L3N6 4 - MN6 2 UN6 4 L3N7 2 ‘_ g6 ;
L3Nl 2 - hlN6 2 L3Nl 2 - NlN4 3 L3N7 2
LL:z i 1 - ;7MM N7W ; 2 L3N7 3 - m% 3 L3N7 3 - N7N4 4
L3N7 3 - WIN6 5 L3N7 4 - N7N6 2 L3Nl 4 - N7M6 3 L3N7 4 - &7w6 4 LL7 4 - ,NtW 5 L3h7 4 - h7W 6 L3N7 5 - N7W6 3
ii::,’ 3 - - NlN6 N7Nb 4 5 L3Nl 5 - N7Nb 6
L3Nl 1 - NlNt 3 L3Nl 2 - NlN7 3 L3Nl 2 - NlN7 4 L3)12 1 - M2N7 3 LWP 2 - N2Nl 3 ~3112 2 - MN7 4 L3113 0 - IuNl 2 L3a3 I- mN7 2 L3113 1 - N3N7 3 L3N3 2 - W3N7 2
L-3 2 - MN7 3 Lu13 2 - 43N7 4 LW3 3 - N3N7 2 L3N3 3 - N3N7 3 L3M3 3 - 13117 4 L3N3 3 - N3N7 5 L3M 0 - MN7 2 L3)14 1 - MN7 2 L3N4 1 - MN7 3 L3N4 2 - WIN7 2
Lu(4 2 - N4N7 3 Lu14 2 - w4N7 4 L3M4 3 - ii4N7 2 L3N4 3 - MN7 3 L3N4 3 - NSN7 4 L3W4 3 - MN7 5 L3N5 1 - N5N7 1 L3N5 1 - N5N7 2
7110.90 1312.69 1506.10 7M9.93 7512.06 7512.21
53::~ii 7511:62 1511.16
0.90 2.78
-1.22 0.01 2.15 2.30
-1.66 -0.44
1970 1.85
aob6.97 8060.85 0O64.bl 8015.97 8068.21
2% :i 0Ob5:48 0067.13 8067.08
-0.06
-::iZ -1.06
1.10
-::c -1.54
0.70 0.06
8930.71 0.70 8940.73 2.73 8936.29 -1.12 09379 bl -0.33 0940.07 2.01 0940.24 2.23 8935.75 -2.25 09370 13 -0.81 8939.53 1.53 8939.70 1.70
7512.53 2.62 8060.69 1.61 0940.56 2.56 7509.35 -0.54 8065.35 -1.68 0936.98 -1.02 7511.49 1.51 8061.59 0.57 0939.38 1.30 7511.44 1.72 80b1.75 0.72 0939.55 1.55 7512.41 2.49 8060.56 1.53 8940.42 2.41 7509.05 -0.87 8065.03 -2.00 8936.64 -1.36 7511.02 1.91 8067.95 0.92 8939.18 1.17 1511.97 2.06 0040.11 1.08 0939.94 1.94 Ill2014 2.82 0060.91 1.09 8940.01 2.80 7509.38 -0.54 8065.30 -1.64 8931.03 -0.91
1560.41 40.11 8121.32 52.33 8994.99 55.14 1560.41 40.11 8115.28 46.29 6988.56 49.31 1561.31 49.01 0116.24 47.25 8989.62 50.37 l%b.O4 53.74 8123.55 54.56 0997.55 50.30 7560.31 56.07 8125.98 56.99 9000.14 60.09 1567.95 55.65 8125.54 56* 54 0999.66 60.41 7504.51 72.21 8142.19 73.20 9017.14 17.69 1549.19 36.89 8105.32 36.33 0977.92 30.bl 7552.29 39.99 0108.62 39.63 8981.51 42.26 1569.17 56.07 8126.19 51.20 9000.14 60.09
7512.27 7512.00 1549.19
::z f % n;;:2u&
. 7512.48 1513.99 1565.09
59.97 8129.49 60.50 9003.13 b4.40 59.10 8129.19 60.19 9003.38 64.13 36.09 8105.32 36.33 8977.92 38.67 39.99 8100.62 39.63 8901.51 42.26 39.12 8100.32 39.32 0981.16 41.91 39.90 8108.54 39.55 0901.44 42.19 60.36 8130.32 61.33 POO4*48 65.23 60.10 8130.14 61.15 9004.29 65.04 61.69 8131.73 62.74 9006.00 66.75 52.79 0122.40 53.41 8996.03 56.78
1566.60 54.30 8124.00 7561.53 55.23 0124.99 1512.31 60.01 8129.96 1573.01 61.51 8131.55 1574.15 62.45 8132.54 7572.b7 60-37 8lM.34 1578.15 65.85 8135.93 7501.26 68-96 8139.24
W~50 8130. 0
. tt *ii . 3 8117. 3
7563.M 51.35 8120.04 7562.10 50.40 0119.00 1546.10 53.79 0123.43 7570.80 50.50 8128.27 7573.91 61.61 8131.58 7572.95 60.65 8130.55 1576.35 64.05 8134.17 1512.96 60.66 8130.55 7551.43 45.13 8114.31 1556.41 44.17 8113.27
55.00 55.99 60.96 62.56 63.55 61.35 66.93 70.25 b9.21 48.53
8991.75 8990.02 9OO4.09 9005.81 900b.08 9004.50 9010.22 9013.83
%?66~ .
8994.24 8993.08 0997.05 9002.10 9005.71 9004.56 9008.52 9004.55 0907.26 8986.11
58.50 59.51 64.04 66.% 61.63 45.25 10.91 74.58 73.43 51.37
L3115 2 - N5N7 2 L3115 2 - MN7 3 L3U5 2 - N5N7 4 :::x ; - - USN7 N5N7 2 1
L3n5 3 - USN7 3 L3M 3 - MN7 4 L3114 3 - 15N7 5 L3U5 4 - USN7 2 L3N5 4 - H5N7 3
L3N5 4 - ItIN7 4 L-5 4 - MN7 5 l.3115 4 - N5N7 6 L3Nl 1 - NlN7 3 L3Nl 2 - NlN7 3 L3Nl 2 - NlN7 4 L3N2 1 - N2N7 3 L3NP 2 - N2N7 3 L3N2 2 - WN7 4 L3N3 0 - WN7 2
L3113 1 - N3N7 2 L3N3 1 - LuN7 3 L3N3 2 - Wh7 2 L3N3 2 - N3N7 3 L3N3 2 - N3N7 4 L3N3 3 - N3N7 2 L3N3 3 - N3Nl3 L3N3 3 - h3N7 4 L3N3 3 - lull 5 L3N4 0 - N4N7 2
L3N4 1 - WN7 2 L3N4
:z:
11
f -
N4;4;
N4N7 3 L3N4 2 - MN7 4 L3N4 3 - WIN7 2 L3N4 3 - N4N7 3
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of ssTb, 6,H~, 70Yb, and 74W (in eV)
TER0lUM L-65 HOLNlUH l-61 YllER~lW l-70
51.85 50. a1 5** 44 59.20 62.59 61.55 65.18 61.54 45.32 44.28
54.99 53.03 57.00 62.65 66.46 65.31 69.21 65.30 48.01 46.06
7559.07 47.51 8116.90 47.91 awo.07 50.02 7556.40 44.18 Ull3.28 44.28 6986.10 46.85 7559.69 47.39 8116.73 47.74 8909.91 50.66 1520.85 8.55 001b.58 1.56 8947.80 a.55 7519.64 7.34 8075.31 6.32 894b.45 7.20 1521.69 9.39 8017.46 6.47 8948.74 9.49 1521.02 9.51 0017~63 a.b3 8948.91 9.72 7522.20 9.90 0O78.12 9.13 0949.50 10.25 1521.23 a.93 8011.02 0.02 8948.33 9.00 1521.49 9.19 0077.26 a.27 8940.54 9.29
7514.65 2.35 0OlO. 11 1519.10 7.40 0015.39 7518.24 5.94 aG73=07 7523.29 10.99 8019.15 1522.07 9.77 8017.00 7514.65 2.35 aa70.11 7519.10 7.40 eO?5.39 7510.40 6.18 8074.12 7520.42 a.12 8076.13 1518.54 6-23 8074.23
1.11 b.39 4.07
10.15
t:: 6.39 5.12 1.14 5.24
8910.90 8946.52 8944.9I 89910.52 6949.10 0940.90 6946.52 8945.17 0947.30 8945.38
1.61 7.21
1::z 9.93 1.45 7.21 5.92 0.05 6.13
7510.47 6.16 1520.41 a.11 1517.20 4.90 7519.15 6.85 1520.09 a.59 1510*45 6.15 1520&O 8.10
aO14.16 0076.20 0072.83 6074. a7
z-:t . 8076.10
3 . 3.83 5.07 1.69 5.15 1.19
6945.29 6.04 0947.41 a.22 8943.86 4.61 0946.04 6.79 8947.90 8.73 0945.28 6.03 8941.45 8.20
See page 387 for Explanation of Tables
409
TUNGSTEN z-74
ENERGY SHIFT
10114.02 1.23 10171.34 3.74 10171.82 -1.77 10173.54 -0.05 10116.53 2.93 101lb.73 3.13 10171.12 -2.40 10172.04 -0.76 10175.02 2.23 10176.02 2.43
10171.11 3.51 10112.65 -0.95 10175.64 2.04 10175.03 2.24 10116.92 3.32 10112.2u -1.39 10176.14 2.54 lOllb.34 2.74 10L17.42 3.82 10112.11 -0.89
10236.33 60.08 10229.30 53.13 lO230~74 54.49 10239.51 63.26 10242.32 66.07 iO241.10 65.45 A0259.25 83.00 lO2lb.06 40.61 10221.43 45.10 lO240.91 b4.06
10245.4ti 69.23 AO244.96 68.11 AO216.8b 40.61 10221.43 45.10 10220.91 44.64 10221.43 45.10 A0246.21 69.96 10245.99 69.75 10240.13 71.80 10231.04 60.80
10239.18 62.93 1024O. 54 64.29 10245.10 69.54 iO241.92 71.61 I0249.28 73.03 10246.20 10.03 10251.52 15.21 10256.17 79.92 :“of32~t . 54.11 78.35
L0235.02 58.77 1023A= 44 57.19 10238.50 62.33 10242.YO 66.55 lo241.45 11.20 1O245*87 69.62 lU25l.02 14.11 10245.83 69.58 10227.46 51.21 10225.08 49.63
10231.02 54.71 AO225.83 49.56 10230.93 54.60 1ou5.50 9.25 10104.01 7.77 10186.15 10.50 lOA07.07 10.83 10187 .b6 11.41 iOA06.25 10.00 AOc36~10 9.05
10111.65 1.40 10164.25 8.00 lOL02.09 5.84 10188.60 12.44 15181.10 10.06 LOA77.65 1.40 10104.25 8.00 [email protected]? 6.42 10105.A6 0.91 10183.01 6.81
lOlti2.96 6.71 10105.51 9.24 10101.34 5.09 10103.89 7.64 10106.17 9.92 10182.94 6.69 10105149 9.24
TRANSITION ENERW SHIFT ENERGY SNIF7 ENERGY StiIFT
L3N4 3 - N4N7 4 L3N4 3 - NM7 5 L3N5 I - N5Nt I L3Ns I - NSW 2 L3NS 1 - NSNI 3 L3N5 2 - NSM 1 L3N5 2 - N5Nt 2 L3N5 2 - N5Nt 3 L3N5 2 - WN7 4 ~3~5 3 - NW? 1
L3N5 3 - N5N7 2 L3N5 3 - kSN7 3 L3N5 3 - h5Nt 4 L3N5 3
LL::: t I - NSNI
wN’ f
3 L3N5 4 - NsNt 4 L3NS 4 - N5Nt 5 L3M5 4 - N5Nt 6 L3N6 1 - MN7 I
L3N6 1 - h6N7 2 L3N6 1 - MN7 3 L3N6 2 - h6N7 I L3W 2 - MN7 2 L3n6 2 - wN7 3 L3N6 2 - MN7 4 L3N6 3 -Mm 1 L3NC 3 - N6N7 2 L3N6 3 - N6N7 3 LINd 3 - WI7 4
L3N6 3 - MN7 5 LW6 4 - MNt 2 L3Nb 4 - NbNt 3 L3N6 4 - N6N7 4 L3N6 4 - N6Nt 5 L3N6 4 - WN7 6 L3N7 2 * NINI 0 L3N7 2 - NtNt 2 L3N7 2 - N7N7 4 L3Nt 3 - NtN7 2
7522.14
:;::-:: 752 L:97 751e.17
T;:f-:X . 7515.19 7523.28 tS13.80
9.84 6.22 2.81 9.66 5.87
-0.18 6.68 2.89
10.98 1.50
X:x 8070:71 0011.80 8073.93 8067.57 8074.74 0070.79 8079.24 8069.34
9.01 8949.39 10.14 5.22 8945.36 6.11 1.72 8941.70 2.45 8.89 8949.33 10.08 4.93 8945.13 5.80
-1.42 0938.34 -0.91 5.75 8945.96 6.11 1.80 8941.77 2.52
10.24 8950.74 11.49 0.35 0940.24 0.99
7520.66 8.36 8076.51 7.52 8947.86 8.61 7516.87 4.57 6072.56 3.56 8943.67 4.42 7524.96 12.66 8011.01 12.01 8952.64 13.39 7516.28 3.90 8071.95 2.95 8943.02 3.77 7517.97 5.67 8073.68 4.69 8944.82 5.57 7534.18 1.08 8069.73 0.73 8940.63 1.38 7522.27 9.96 8078.17 9.18 6949.60 10.35 7513.59 1.29 8069.11 0.12 8939.98 0.73 7523.52 11.52 6079.79 10.80 8951.31 12.06 7511.43 -0.07 8066.93 -2.06 8937.76 -1.49
7512.66 0.36 7514.80 2.50 7511.05 -1.25 7512.20 -0.03 7514.41 2.11 7514.56 2.26 75lQ.80 -1.50 7512.03 -0.27 1514.17 1.07 7514.32 2.02
%X-f; eo66:52 8067.81 8070.05 5070.21 8066.25 8067.55 8069.19 8069.95
-0.77 -::4"8 -1.18
1.06 1.22
-2.74 -1.45
0.80 0.95
8939.14 8941.54 8937.30 8930.68 8941.08
:~~:'ft 8936138 0940.78 8940.95
-0.11 2.29
-1.95 -0.57
1.83 2.00
-2.25 -0.87
1.53 1.70
7515.09 7512.46
;X:t-5: . 7515.51 7512.15
;;:i-t: 1514159 7511.76
2.78 6070.75 1.76 8941.82 2.57 0.15 8068.00 -0.99 8938.90 -0.35 2.29 8070.25 1.26 8941.30 2.05 2.44 0070.41 1.41 8941.47 2.22 3.21 8011.21 2.22 8942.33 3.08
-0.15 6067.68 -1.31 8938.55 -0.70 -4.02 8063.65 -5.35 8934.28 -4.97 -0.09 8067.17 -1.22 6938.68 -0.57
2.29 8070.27 1.26 8941.35 2.10 -0.54 8067.29 -1.71 8938.14 -1.11
Lull 3 - N7Nt 4
‘L3z f - - MN7 N7N7 2 4 L.3N7 4 - NlN7 6 L3N7 5 - N7Nt 4 L3N7 5 - N7N7 6
F. PARENTE et al. L X-Ray Satellite Energies
TABLE I. L X-Ray Satellite Energies of &‘I%, s,Ho, mYb, and ,,W (in eV) See page 387 for Explanation of Tables
lER8IW Z-65 IiOLNl UII Z-67 r1n3lmM z=to
7514.15 1.85 8069.79 0.80 8940.81 1.56 7511.63 -0.67 8067.15 -1.54 8937.99 -1.26 7514.02 1.72 8069.66 0.66 8940.67 1.42 7514.39 2.09 8070.04 1.05 8941.00 1.83 7514.35 2.05 8070.01 1.02 8941.06 1.81 7514.72 2.42 8070.40 1.41 8941.47 2.22
410 Atomic Data and Nuclear Data Tables, Vol. 28. No. 5, September 1981
TUNGSlEN 1174
ENERGY SHIFT
10167.77 11.53 10183.02 6.77 10170.64 2.36 101(17.56 11.31 lOIS2.66 6.43 lU114.81 -1.43 10163.77 7.52 10178.09 2.64 13109.33 13.08 10176.90 0.71
10185.92 9.67 LOl(11.03 4.18 10191.47 15.22 10180.33 4.08 10182.46 6.23 10177.60 1.35 10168.04 11.79 10176.90 0.65 10169.96 13.74 10174.62 -1.43
10176.54 0.29 10179.51 3.28 10174.22 -2.03 10175.94 -0.31 101ta.92 2.68 lJA79.l.i 2.87 10173.63 -2.42 10175.55 -0.70 10176.54 2.29 10170.74 2.49
10119.82 3.57 10170.22 -0.03 10179.21
5-E 10179.41 . lJleo.49 4.24 10175.7d -0.47 10170.40 -5.85 10175.93 -0.32 1017Y.21 3.02 10175.23 -1.02
10178.56 2.31 10175.04 -1.21 10178.36 2.13 iO176.90 2.65 10118.86 2.63 lJl79.40 3.15
TRANsITIffl EMRCI SHIFT ENERGY SHI Fl ENERGY SHIFT
:fi: i - - 111M2 WlMZ 0 1
LlMl 1 - WlW 1 Lll2 1 - )(tllz 0 LlW3 1 - It3112 1 Ll113 1 - M3U2 2 LlM3 2 - n3u2 1 LlM3 2 - luM2 2 ii114 1 - MM2 1 LlM4 1 - mn2 2
LM4 2 - MM2 1 LlM 2 - mm2 2 ill45 2 - ns(u 2 LlMS 2 - li5R2 3 LlMS 3 - Mm2 2 LIIIS 3 - mm2 3 LI(Yl 0 - hlR2 1 LlNl l- NW? 0 LlNl 1 - Nln2 1 LlN2 0 - N2hl2 1
t:": : - - N2ll2 N2M2 0 1 LlN3 1 - N3M2 1 I.113 1 - N3112 2 LlN3 2 - h3M2 1 LlN3 2 - N31(2 2 LlN4 1 - N4M2 1 LlN4 1 - N4M2 2 LlN4 2 - WIU 1 LlN4 2 - MM2 2
LlN5 2 - NW2 2 LlN5 2 - N5112 3 LlN5 3 - N5H2 2 LAN5 3 - NH2 3 LlN6 2 - N6H2 2 LlNd 2 - N6&? 3 LlNI 3 - N6M2 2 LlN6 3 - hbR2 3 LlN7 3 - WIG! 3 LlNt 3 - N71U 4
10902.97 10691.02 108-t2.18 io880.7i
:i$:% . 10885.95 10875.67 10868.94 10903.54
41.17 11614.55 49.20 35.21 11601.82 36.47 16.37 11562.34 16.99 24.90 11591.43 26.07 35.85 11602.37 37.01 25.57 11591.79 26.43 30.14 115%.46 31.10 19.86 11585.87 20.51 13.13 11578.92 13.56 47.73 11614.80 49.44
13541.26 13526.36 13505.25 :'m;.x;
. 13515.29 13520.15 13508.82 13501.26 13540.48
54.82 39.92 18.81 29.45 40.18 28.85 33.72 22.38 14.82 54.05
:o";::*:: . 10892.42 lC696.26
:xX . 10662.9a 10857.90 10856.39 10864.39
20.32 115s6.30 54.91 11622.18 36.61 11692.98 30.45 11596.60 26.37 11592.48 20.20 115%.10
7.10 11572.84 2.09 11567.53 0.58 11565.95 8.58 11514.42
20.94 56.82 37.62 31.24 27.13 20.74
7.48
?S . 9.a6
13509.09 22.65 13548.31 61.88 13526.51 40.08 13519.56 33.13 13515.45 29.01 13508.50 22.07 13495.03 8.59 13488.80 2.44 13481.12 0.68 13496.85 10.42
iaas3.39 10845.09 10860.28 1ae59.i?e 10859.10 lae59.10 10657.08 10858.88 l(1658.40 10860.20
-2.62 11562.64 -2.72 13483.52 9.28 11575.16 9. a0 13497.69 4.48 11570.04 4.69 13491.72 3.47 11568.99 3.63 13490.55 3.30 11568.81 3.45 13490.33 2.29 115b7.75 2.39 13489.15 1.27 11566.71 1.35 13488.03 3.07 11568.60 3.24 13490.17 2.59 11569.09 2.74 13489.59 4.39 11569.99 4-63 13491.73
-2.92 11.26
5.28 4.11
3.2 1:ao 3.74 3.15 5.29
lC659.68 ia859.18 10057.76 10657.28 10852.79
:i;‘,f-tX . 10855.74 lC054.20 10553.45
3.88 11569.42 4.06 13491.00 4.56 3.37 11568.89 3.53 13490.40 3.96 1.97 11567.42 2.07 13408.71 2.34 1.47 11566.89 1.53 13488.17 1.74
-3.02 11562.12 -3.24 13482.70 -3.74 -0.13 11565.25 -0.11 13486.40 -0.04 -2.95 11562.19 -3.17 13492.78 -3.65 -0.07 11565.32 -0.04 13486.48 0.05 -1.60 11563.65 -1.71 13484.50 -1.94 -2.35 11562.83 -2.53 13483.53 -2.90
10654.12 10653.37
L1N7 4 - NM2 3 UN7 4 - WI42 4 11n1 0 - m1n3 1 Lull 1 - mn3 1 LWl 1 - llllu 2 LlW2 0 - I(Zfi3 1 LlM2 1 - #UN3 1 Ll12 1 - n2n3 2 LlN3 1 - Kin3 0 LlU3 1 - mM3 2
L1113 2 - 113113 2 Ll)14 1 - MM3 0 L1114 1 -MN31 LlM 1 - c1413 2 LlM4 2 - l&n3 1 Lllll 2 - MC113 2 Llll4 2 - n4n3 3 Llll5 2 - n5n3 1 Llh5 2 - n5((3 2 LlllS 2 - 115M3 3
LlN5 3 - M5w 2 LlN5 3 - n5m 3 LlN5 3 - *It3 4 LlNl 0 - NlM3 1 LlNl l- hlm3 1 LlNl 1 - NM3 2 Llh2 0 - h2R3 1 LlN2 1 - N21(3 1 Llh2 1 - N2M3 2 LlN3 1 - N31u 0
LlN3 1 - 10113 1 LlN3 1 - N3lN3 2 LlN3 2 - N3W 1 LlN3 2 - WKi 2 LlN3 2 - N3U3 3 LlN4 1 - N4M3 0 LlN4 1 - WI43 1 LlN4 l- W)13 2 LlN4 2 - Mu43 1 LlN4 2 - N4R3 2
LlN4 2 - NM3 3 LlN5 2 - ldlo 1 LlN5 2 - MM3 2 LlN5 2 - NM3 3 LlN5 3 - h5lu 2 LlN5 3 - N5113 3 UN5 3 - N5R3 4
F. PARJINTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,sPt, eoHg, ,At, and =Ra (in ev)
PLATI#uII z-79 NPM.URV L-80 ASTATINE Z-85
11267.47
:::z-:,” . 11274.65 11277.94 11261.66 11249.00 11269.44
-1.69 11563.55 -2.44 11562.74 31.14 12029.92
0.35 11997.71 37.06 12036.45 38.32 12037.24 41.61 12040.66 31.33 12030.08 12.67 12010.36 33.11 12031.43
11263.73 27.40 11265.31 28.98 11263.14 26.81 lt272.9? 36.64 11270.32 33.99 11260.16 43.83 11269.74 33.41 11253.19 lb.96 11282.52 46.19 11263.54 27.21
11272.28 11253.30 11283.56 11241.57 11235.05 11238.07 11240.06 11240.76 11239.68 11228.73
:3*;: 47122
5.24 ‘1.28
1.74 3.73 4.43 3.35
-7.60
::zx 11242:70 11235.86 11242.70
::fz 11240:32 1123a.75 11241.64
7.55 12094.96 7.86 0.71 11997.80 0.69 6.37 12003.12 6.62
-0.47 119%.56 -0.55 6.37 12003.72 6.62
-1.00 119%.04 -1.07 1.09 11998.23 1.12 3.98 12001.26 4.16 2.41 11999.62 2.51 5.31 12002.65 5.55
11238.47 2.14 11235.19 -0.54 11240.46 4.13 il240.81 4.48 11238.56 2.22 11238.91 2.58 11237.95 1.62
See page 387 for Explanation of Tables
I:-:: . 32.81
0.60 39.35 40.14 43.56 32.97 13.25 34.33
12025.52 12027.26
:f:f:'yz . 12032.43 12042.57 12031.83 12014.53 12044.76 12025.23
28.41 14103.78 31.25 30.15 14105.98 33.45 27.95 14103.69 31.16 38.09 14114.59 42.04 35.33 14111.52 38.99 45.47 14122.42 49.09 34.72 14110.06 38.33 17.43 14091.38 18.86 47.65 14123.86 51.33 28.12 14102.94 30.41
12034.26 31.16 12014.73 17.63 12045.86 48.76 12002.60 5.50 11995.71 -1.39 11998.87 1.77 12001.03 3.92 12o01.77 4.66 12000.63 3.52 11989.13 -7.97
11999.33 119%.49 12001.38 12001.74
::xizx 11998176
2.23 -0.62
4.28 4.44 2.29 2.64 1.66
13484.38 -2.05 13483.42 -3.01 14110.19 37.66 14074.17 1.65 14116.03 43.51 14117.83 45.30 14121.60 49.07 14110.27 37.74 140B7.58 15.01 14110.25 37.72
14112.79 14091.88 14125.21 :'GoX.g
. 14a74.42 14o77.05 14077.90 14076.61 14063.65
40.27 19.35 52.68
6.27 -1.63
1.90 4.53 5.37 4.08
-8.88
14081.22 14073.21 14079.83 14a71.82 14079.83
:z;:-;t . 14077.18 14075.34 14070.74
8.70 0.68 7.30
-0.71 7.30
-1.18 1.26 4.66 2.81 6.21
14075.01 14071.73 14077.22 l++;."p;
14O75:38 14074.31
2.49 -0.79
4.69 5.08 2.47 2.85 1.78
411
RADIW 2108
ENERGY SHIFT
14806.92 58.25 14790.56 41.89
14766.43 14780.10 f?Z . 14190.56 41.89 1471a.79 30.12 14783.73 35.06 14771.9b 23.29 14764.00 15.33 14805.34 56.67
14172.08 23.41 14813.41 64.74 ICI90.21 41.54 14782.91 34.24 14778.85 30.17 14771.55 22.88 14758.08 9.41 14751.37 2.70 14749.50 0.83 1476O.Ob 11.39
14745.72 -2.95 14760.97 12.30 14754.42 5.14 14753.16 4.k9 14152.92 4.25 14751.67 3.00 14750.50 1.83 L4752.80 4.13 14752.14 3.49 14754.46 5.7a
~4753.61 4.94 14752.96 4.29 14153.25 2.51 14750.60 1.93 14744.71 -3.96 i4749.74 0.07 14744.61 -3.86 14148.83 0.16 A4lCb.bb -2.02 14745 .bl -3.06
14746.54 -2.14 14745.49 -3.18 15w9.0* 40.70 15450.54 2.20 i5494.26 45.94 15kYb.8A 48.k7 15503.80 52.4b 15469.03 40.69 LHb4.33 15.99 15487.96 39.62
15481.13 32.79 15483-H 35.30 15481.30 32.96 15492.66 44.32 15469.30 41.03 15500.74 52.40 15488.68 40.34 lHbtS.10 19.76 15501.93 53.59 15480*17 31.83
15490.57 42.23 15468.81 20.47 15503.48 55.13 15455.21 6.87 15446.63 -1.71 15450.40 2.06 15453.36 5.02 A5454.2I 5.92 15452.88 4.54 15438.96 -9.38
x5457.63 9.29 15449.08 a.74 L5456.13 7.79 15447.59 -0.75 iii*sr.r3 7.79 zi447.14 -1.20 15449.73 1.39 L5453.35 5.01 lS451.36 3.04 15455.01 6.67
15451.o4 2.69 15447.49 -0.85 15453.33 4.99 15453.73 5.39 15450.97 2.b3 15451.37 3.03 15450.25 1.90
412
TRANSlTlW ENERGY SHIFT ENEa6Y SHiFl ENERGY SNlFT
LlN6 2 - NbH3 1 LlN6 2 - N6M3 2 LlNb 2 - hbM3 3 LlN6 3 - NbIu 2 LlN6 3 - N6ll3 3 LlN6 3 - NM3 4 LLN? 3 - N?H3 2 LlN7 3 - N7M3 3 LlN7 3 - N7Ki 4 LlN7 4 - N7U3 3
LlNl 4 - N7113 4 LlN7 4 - N7113 5 LlMl 0 - HIM4 2 Lllll 1 - lunr 1 Lllll 1 - WI4 2 LlM2 0 - llzm 2 Ll112 1 -m2UMl LlM2 1 - n2M4 2 L1113 1 - M3M 1 LAM3 1 - Km4 2
11231.40 11233.74
:::3:*t: 1123&t 11232.23 11229.68 11235.17
::;iz-tt . 11234.39 11235.16 11723.58 11701.63 11692.79 11731.40 117OO.OY 11734.69 11708.00 11717.84
-4.73 11992.01 -5.10 -2.59 119Y4.29 -2.81
0.12 11997.22 0.11 -2.52 llYY4.36 -2.74
0.19 11997.2Y 0.18 -4.10 11992.66 -4.44 -6.65 11989.YO -7.21 -1.16 11995.a3 -1.27 -1.a5 11995.05 -2.05 -1.25 11995.74 -1.37
14066.55 14069.17 14072.b3 14069.25 14072.71 14067.26 14663.96 14070.99 y40;.;;
. 14069.83 14071.11 14631.46 14605.42 14595.45 14640.25 14604.80 14644.02 14612.25 14623.15
-5.98 -3.36
0.10 -3.27
0.19 -5.27 -8.57 -1.53 -2.54 -144
-1.94 -1.17 38.32 16.37
7.52 46.14 14.83 49.42 22.74 32.58
11994.96 -2.14 11993.84 -1.25 12504.34 40.18
K::' if . ‘% . 12512.42 48.27 12419.97 15.81 12515.85 51.69 12467.81 23.65 12497.95 33.79
-2.65 -1.41 45.46 19.43
9.45 54.25 18.80 se.03 26.25 37.15
L1113 1 - N3M4 3 L&H3 2 -WI440 L1)13 2 - em4 1 L1113 2-113M2 lima 2 -113M3 LlM4 1 - MI(4 2 LlM4 2 - m4Iw 0 LllM 2 - m4* 2 LlR5 2 - IISM 1 LUS 2 -USN42
:::3 f
- 1151(4 3 -Mm44
LlMS 3 - nsm4 1 LMS 3 -lluHz LIti 3 - Mm4 3 LlII5 3 - am4 4 LlNl 0 - NM4 2 11691.64 LlNl 1 - NlM 1 11686.14 LlNl 1 - NM4 2 LlN2 0 - NZUIW 2 LlN2 l- N2UM 1 LlN2 1 - N2Hb 2 LlN3 1 - N3M 1 LlWl-N3m42 LlN3 1 - NW4 3 LAN3 2 - N3M4 0 LlN3 2 - LUM 1 L1N3 2 - N3U4 2
kc2 : -Ef
LlN4 1 - N4M 2 LlN4 1 - N4Iw 3 LlN4 2 - N4M 0 Lln4 2 - mm4 1 LlN4 2 - WI44 2 LlN4 2 - N4R4 3 LlNS 2 -cum1 LlNS 2 - NW4 2 LlNS 2 - NM4 3 LINS 2 - NSh 4
LlNS 3 - 115114 1 LlNS 3 - Nsm 2 LlNS 3 - NW4 3 LlN5 3 - NW4 4 LlN6 2 - NM4 1 LlNb 2 - MM4 2 LlN6 2 - NW4 3 LlN6 2 - NW4 4 LlN6 3 - w&l4 1 LlN6 3 - NW4 2
LlN6 3 - MM4 3 LlN6 3 -wmr LlN7 3 - N7M 2 LlN7 3 - N7M 3 LlN7 3-N7M4 LlN7 3 -N7lW5 LlN7 4 - N7IM 2 LIN7 4 - N7H4 3 LlN7 4 - N7M 4 LlN7 4 - N71112 3
LlMl 0 -#UN5 2 LlNl 1 - MN5 2 LlMl 1 - NAN3 3 LUG? 0 - 11215 2 Llll2 1 - wfl5 2 LlR2 1 - tulli 3 LllU I- M3lu 1
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,sPt, soHg, sIAt, and &a (in eV) See page 387 for Explanation of Tables
PLArINum z-70 NEWI Z-00 Asl*TlNE Z-85
11707.42 11704.47 11702.30 11712.14 11701.71 11711.00 11694.02 11711.1Y 11708.36 11712.83
11723.19 11707.71 11696.12 11702.58 11712.94 11657.47
116as.12 11619.86
37.93 12503.28 39.12 14628.11 22.45 12487.30 23.14 14610.87 12.85 12477.46 13.30 14600.49 17.32 12402.09 17.93 14605.52 27.60 124Y2.78 28.62 14617.05 12.21 12476.80 12.64 145Y9.81
6.38 12470.90 6.75 14593.79 0.87 12465.07 0*92 14537.07
-0.14 12464.01 -0.15 14585.88 4.bO 12469.04 4.60 145591.70
116a1.68 11690.56 11680.17 11690.81 11687.85 11135.35 11616.99 [email protected]
xx: .
11663.59 11691.71 11676.74
::Xt*~~ 1u93:03 11686.20
:::g":*: 11687:oLl
2.42 5.30 2.90
9;: 0:oo 1.72 4.37 1.41 6.45
-1.67 12462.41 -1.75 6.45 12470.96 6.80
-8.52 12455.22 -8.94 7.77 12472.35 a.19
-0.35 12463.00 -0.36 7.77 12472.35 11.19 0.94 12465.14 0.96 3.23 12467.54 3.38 5.25 12469.66 5.30 1.82 12466.06 1.90
11684.30 -0.97 11606.59 1.33 LlbO8.61 3.34 11685.10 -0.09 11678.66 -b&l 11605.47 0.20 11662.02 -3.25 1ue7.51 2.24 llb78.12 -6.54 11’665*53 0.27
y”f.;; .
11681.22 11613.74 llUS.36 11681.79 11601.13 11613.65 llUS.28 11681.70
-2:: . -4.05 -1.52
0.10 -3.46 -4.13 -1.61
0.01 -3.56
11#00.36 11769.s6 11783.02 11794.15 11797.44 11191.28 11771.92
3f-:sS 17:41 28.54 31.33 25.67
6.31
22.16 19.21 17.04 26.87 16.45 25.74
8.76 32.92 23.10 27.57
12487.20 12484.10 12481.89
:ft:?i; 12490:93 12473.34 12496.31 12487.96 12492.5B
23.04 14b11.58 25.59 19.94 14608.07 22.07 17.73 14605.78 19.71 27.37 14616.b8 30.68 17.13 14605.12 19.12 26.77 14615.67 29.68
9.18 14596.51 10.51 34.15 14623.50 37.51 23.80 14611.55 25.56 28.43 14616.58 30.58
12466.76 12469.76 12467.21 12469.96 12466.89 12464.27 12465.98 124U.72 12465.65 12470.96
2.60
,‘:E 5.80 2.73 0.11 1.82 4.57
:::
12463.14 12465.55 12467.bb 12464.07 12457.02 12464.41
:ft2- tf :;&;
.
12460.69 124b6.72 12459.11 12462.51 12464.26 12460.41 12459.71 12462.42 12464.17 12466.32
-1.02 1.39 3.50
-0.09
-x*:3 -3154
2.49
-o’*z .
-3.47 2.56
-4.35 -1.65
0.10 -3.75 -4.45 -1.74
0.01 -3.64
12591.29 3b.52 121~9.06 4.31 12573.02 16.25 12564.84 30.07 12568.26 33.49 12561. u 27.11 12561. S2 6.75
42.11 24.07
:;*31: . 31.05 13.81
7.79 1.07
-0.11 5.70
14569.15 145Y2.54 14599.40 14592.51 14589.12 14586.22
Et:*:f .
:::13*;3 .
14504.09 14593.75 14576.01 145595.31 14585.65 14595.31 14567.11 14569.79 14SY2.16 14588.13
3.15 6.54 3.49 6.51 3.12 0.22 2.09 5.12 1.73 7.76
-1.90 7.76
-9.99 9.31
-0.35 9.31 1.11 3.79 6.16 2.14
1451)4.06 -1.11 14587.5b 1.57 1458Y.Y3 3.93 145W.Yl -0.09 14577.55 -6.44 14536.36 0.37 14581.74 -4.26 1456Y.11 3.12 14577.64 -8.36 14506.45 0.45
14501.82 -4.17 145m9.20 . 3.20 14580.90 -5.09 14504.06 -1.94 14586.13 0.13 145a1.59 -4.41 14seo.79 -5.20 14503.9s -2.05 14536.02 0.02 145el.48 -4.52
14748.54 14712.53 14727.74
:tTt:-it 1473e:29 14715.13
41.66 5.65
2O.W 34.56 38.35 31.40
8.24
RAOIUN Z-88
ENERGY SHIFT
15441.09 -6.45 15444.71 -3.64 11448.48 0.14 15444.90 -3.54 1544asu 0.23 15442.63 -5.71 15439.01 -9.34 15446.68 -1.66 15445.55 -2.79 h44b.54 -1.78
:zz:*t: -2.91 . -1.48
m&f; . 40.74 20.74 16000.75 10.24 16046.4o 57.97 16011.14 20.63 16052.41 61.96 16018.LY 27.68 16029.55 39 .o*
16017.50 26.99 lbO13.70 23.19 lbOLl.3b 20.85 16022.72 32.21 lbOL0.61 20.16 I4OLl.79 31.20 16OOL.64 11.13 36029.07 39.35 16017.17 26.66 16022.4k 31.93
Lb034.47 43.96 lbOlb.47 25.96 16005.81 lS.30 16011.00 20.5b 16023.11 32.60 16005.11 14.60 15999.01 8.5b 15991.16 1.25 15990.50 -0.02 15996.84 6.33
lSY94.11 3.60 15997.74 7.23 15994.34 3.03 iSYY7.53 7.02 15YY3.95 3.44 15990.81 0.3b 15992.64 2.33 15996.04 5.53 15992.46 1.95 15990.93 3.42
L59tw.58 -1.93 15996.93 8.42 lSYIY.94 -10.57 16000.58 10.07 15990.23 -0.20 16000.53 10.07 11991.76 1.25 15994.bL 4.10 15997.13 b.b2 15992.85 2.34
15989.39 -1.12 15992.24 1.73 15YY4.76 4.25 lSYYO.48 -0.03 lSYBl.34 -9.17 i5991.00 0.49 15965.87 -4.64 LSYY4.05 3.54 isObl.*+ -9.07 15991.09 0.58
L59U.96 -4.55 15994.14 3.63 15YYS.02 -5.49 lSPU.44 -2.07 15990.69 0.16 15965.76 -4.75 15984.90 -5.bl 15904.32 -2.LP lii990.51 0.06 lS965.64 -4.07
16177.80 44.86 16139.31 6.37 16155.32 22.37 16170.31 37.37 16174.31 41.36 16167.OL 34.07 16l41.96 9.01
TRANSlTION ENERGY SHIFT ENERSY 941 FT ENERGY SHIFT
LlM3 1 - lmi45 2 Ll(13 1 - 113M5 3 LlM3 2 - 10115 1 LAN3 2 - n3n5 2 L1113 2 - lulls 3 LlW3 2 - 113115 4 LlM I - mw5 1 LlM4 1 - mlls 2 All44 1 - mels 3 LlN4 2 - M4R5 1
11801.26 11782.28 11766.22 11795.35 11776.57 11006.(13 11782.23 1111)6.70 11797.06 11789.42
35.65 16.67
0.61 29.94 10.96 41.22 16.62 21.09
2:*:: .
28.28 38.63 23.16
4.31 26.36 35.00 16.11 24.75
5.90 -0.61
12591.75 36.98 14747.60 40.71 12572.22 17.45 14726.68 19.eo 12555.60 O-04 14708.66 1.77 12505.03 31.06 14741.13 34.25 12566.30 11.53 14720.22 13.33 12597.43 42.66 14753.55 46.66 12572.19 17.U 14726.74 19.85 12576.82 22.05 14731.77 24.86 12S81.51 32.74 14743.30 36.41 12579.57 24.00 14734.57 27.60
LlM 2 - mns 2 Ll114 2 - MM5 3 Lll44 2 - MM5 4 LlM 2 - wm 0 LlMS 2 - tin5 2 Lilts 2 - nsH5 4 LlM5 3 - lulls 2 Llll5 3 - Ml45 4 LlNl 0 - NlM5 2 LlNl 1 - NM5 2
LlNl 1 - NlllS 3 LlN2 0 - N2MS 2 LlN2 I - N2MS 2 LlN2 1 - N2IIS 3 LlN3 1 - N3MS 1 LlN3 1 - N3M5 2 LlN3 1 - N3115 3 LlN3 2 - NM5 1 LlN3 2 - h3m5 2 LlN3 2 - N3M5 3
LlN3 2 - lull5 4 LlN4 1 - h4fis 1
t::: : - ml45 2
LlN4 - N4M5 3
2 - NM5 1 LAN4 2 - N+R5 2 L1N4 2 - ~5 3 LlW4 2 - NW5 4 LlN5 2 - NSM 0 LlNS 2 - h5H5 1
LlNS 2 - W115 2 LlNS 2 - NSMS 3 LlN5 2 - NW5 4 Llhs 3 - N-51 LlN5 3 - hSM5 2 LlNS 3 - MS115 3 LlN5 3 - WMS 4 LINS 3 - NSMI I LlN6 2 - N6WS 0 LlN6 2 - NM5 1 LlN6 2 - NbNS 2 LlN6 2 - NbW5 3 LINI 2 - NW5 4 LlN6 3 - N6H5 1 LlN6 3 - WII5 2 LlN6 3 - N6ns 3 LlN6 3 - NbMS 4 LllS6 3 - WMS 5 2::: : - - N7MS NW5 2 1
LlNt 3 - NtllS 3 LlNt 3 - NtM5 4 LlNt 3 - NtU) 5 LlNt 4 - h7)15 2 LlNt 4 - NtllS 3 LlNt 4 - NW5 4 LlNt 4 - NtM 5 LlNt 4 - LtM 6 Lllll 0 - UN2 I Llfil 1 - MN2 0
Llfll 1 - MiN2 1 LI(I2 0 - WZN2 1 LlM2 1 - WN2 0 L1112 1 - h2N2 1 LlM3 1 - 113N2 1 LlM3 1 - eN2 2 LlM3 2 -)(3N21 LlM3 2 - mm2 2 Lln4 1 - MN2 1 LlH4 1 - mN2 2
L1)14 2 - N4N2 1 1334Oa4 67.61 14234.29 LlM 2 - MN2 2 13342.92 to.49 lU37.30 LlR5 2 - MSN2 2 13341.07 68.63 14235.09 LlMS 2 - mu2 3 13340.27 67.64 14234.25 Ll)IS 3 - MN2 2 1333O.U 18.39 14224.59 LlM 3 - msa2 3 13330. G2 57.59 14223.76 UN1 0 - NlNL 1 13207.02 14.59 141t9.57
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,$t, soHg, ,At, and wRa (in eV) See page 387 for Explanation of Tables
PLAT IWM 2-16 nEnCuRY L=OO ASTATINE z-05
11793.89 11804.24
::;“,&;I .
::x;:-:: . 11781.72 11790.36 11771.51 11765.00
12584*20 29.43 14739.60 32.71 125% 89 40.12 14751.13 44.24 12578.91 24.14 14733.89 27.00 12559.23 4.46 14711.78 4.90 12581.98 27.22 14736.33 29.44 1259O.90 36.14 14745.94 39.06 12571.49 16.72 14725.26 18.38 1258O.41 25.64 14734.08 27.99 12561.01 6.24 14714.13 7.25 12554.12 -0.65 14706.23 -0.66
11766.55 11769.Ob
::;z-2 .
::::50-:t . 11769.94 11763.96 11169.02 1116a.16
0.94 12555.74 0.97 14708.04 1.15 3.45 12550.44 3.67 14711.26 4.37 4.15 12559.18 4.41 14712.10 5.21 3.35 12550.34 3.57 14711.16 4.27
-0.47 12554.29 -0.48 14706.48 -0.40 4.59 12559.57 4.80 14712.31 5.42 4.33 12559.29 4.53 14712.01 5.12
-1.65 12553.05 -1.72 14705.09 -1.80 3.41 12558.33 3.56 14710.91 4.03 3.15 12558.06 3.29 14710.62 3.73
1176a.79 3.18 12558.09 3.32 14710.65 3.76 11764.95 -0.66 12534.09 -0.68 14706.25 -0.64 11761-39 1.76 12556.65 1.88 14709.12 2.23 11769.50 3.89 12550.87 4.10 14711.61 4.72 11766.27 0.66 12555.48 0.71 14707.80 0.91 11763.71 3.10 12558.04 3.27 14710.67 3.78 11770-82 5.21 12560.25 5.49 14713.16 6.27 11767.22 1.61 12556.47 1.70 14708.91 2.02 11755~71 -9.90 12544.35 -10.42 14695.20 -11.69 11772.22 6.61 12561.69 6.92 14714.66 7.79
11762.04 -2.77 12SSl. 65 -2.92 14703.63 11774.75 9.14 12564.35 9*50 14717.64 11765.82 0.21 12554.97 0.20 14707.13 11770.32 4.71 12559.70 4.93 14712.46 11760.94 -4.67 12549.05 -4.91 14701.40 11772.05 7.24 12562.35 t-59 14715.42 11763.92 -1.70 12552.97 -1.79 14704.90 11771.03 5.42 12560.44 5.67 14713.28 11760.21 -5.40 12548.95 -5.82 14700.09 11760.64 -4.97 12549.40 -5.37 14700.58
-3.26 10.76
0-f; . -5.49
8.53 -1.99
6.40 -6.80 -6.31
11763.46 -2.15 12552.44 -2.33 11764.60 -1.01 12553.67 -1.10 11765.52 -0.09 12554.66 -0.11 11760.71 -4.90 12549.47 -5.30 11763.52 -2.09 12552.51 -2.25 11764.67 -0.94 12553.74 -1.93 11765.38 -0.03 12554.73 -0.06 11761.87 -3.74 12550.72 -4.01 11757.64 -7.77 12546.35 -8.U 11763.49 -2.12 12552.49 -2.28
14704.18 14705.60 14706.79 14700.66 14704.27 14705.69
:t;:t*:t . 14696.90 14704.26
-2.70 -1.28 -0.09 -6.22 -2.62 -1.20 -0.01 -4.75 -9.99 -2.62
11761.49 m; .i(:
11163:41 11761.41
::;t:*t: ym;::;
13316:42
-4.12 125SO.2I 2.16 12557.11
-4.21 125¶O. 16 -2.20 12552.40 -4.20 12550.18
2.08 12557.02 -4.30 12550.06
2.06 12557.Ob 73.54 14240.95 43.99 14210.04
-4.49 2.35
-4.61 -2.37 -4.50
2.25 -4.70
tf:,” 46.05
14701.51 14709.75
:t'l::-:f 14701:40 14709.64 14701.21 14709.80 16669.20 16634.64
-5.38 2.86
-5.57 -2.73 -5.49
2.75 -5.66
2.91 06.27 51.71
13315.18 mm:.:
. 13341.42 13330.81 13329.12 13325.10 13324.02 13332.36 13335.73
42.74 14206.74 44.74 16633.19 50.26 65.69 14232.93 66.93 16660.73 77.10 57.08 14223.83 59.63 16650.33 67.40 60.98 14236.35 72.35 lb664.50 81.58 56.37 14224.67 60.67 16649= 73 66.80 57.29 14223.53 59.53 1664a.44 65.51 12.67 1420.75 54.75 16643.26 60.33 51.S8 14217.62 53.62 16641.97 59.05 60.42 14226.91 62.91 16652.42 69.49 63.30 14229.92 65.92 16655.81 72.E8
70.29 73.M 71.09 70.25
. %.Z 15.57
16660.25 77.32 16663.64 80.71 16660.19 77.26 16659.24 76.32 166499.13 66.20 1664a.1a 65.2) 16601.19 18.26
413
RADIkm 2-68
ENERGY SHIFI
16L75.79 42.84 16154.03 21.08 16135.13 2.19 16168-96 36.02 16147.20 14.26 L6161.67 40.92 LblS4.13 21.19 16159.40 26.46 16171.44 38.49 16162.21 29.27
16167.48 34.54 16179.51 46.57 16161.51 26.57 16138.17 5.22 16163.76 30.84 16173.82 40.07 16152.42 19.48 16162.46 29.51 16140.94 7.99 16132.36 -0.58
16134.30 1.35 16137.07 4.93 16138.76 5.63 16137.76 4.82 Lbl32.b6 -0.20 16130.83 5.Q 16138.51 5.5b 16131.17 -1.77 16137.36 4.39 16137.02 4.07
16117.05 4.11 16132.40 -0.54 16A39.46 2.52 16138.12 5.18 16134.05 1.11 16A37.AL 4.17 L6139.78 6.83 16135.24 2.29 lb120.53 -12.41 16141.33 8.38
lOA29.5~ -3.41 L6144.47 11.53 16133*26 0.32 Lbl36.Vb 6.02 16127.17 -5.78 16142. IL 9.17 16A30.90 -2.05 161)9.114 6.90 16L25.62 -7.33 L6126.lZ -6.82
lb130.06 -2.80 lb13l.bO -1.34 16132.91 -0.04 16126.22 -6.73 16130.16 -2.79 16131.70 -1.25 16133.00 0.06 LbLZ7.83 -5.12 16122.07 -10.88 16130.16 -2.78
16127.08 -5.87 16136.15 3.21 16126.05 -6.10 16130.04 -2.90 16126.96 -5.99 Ab136.03 3.09 16126.73 -6.22 16L36.26 3.33 18261.70 92.06 10230.75 55.11
18229.20 53.56 18256.95 83.31 1u247.70 72.06 18262.9, 87.30 lai~46.00 70.35 lYt#.bl be.97 lU39.17 63.53 18237.7v 62.15 IGiU.95 73.31 18252.50 76.94
18257.03 81.39 16260.66 85.02 LoZW.bS 81.01 18255.64 80.00 19241.29 69.63 19244=2e 6B.64 16195.72 20.09
TRANSITION ENENCV SHIFT EWES? SHIFT ENERG SHlF7
LIUL 1 - NlN2 0 LlNl 1 - NAN2 1 ON2 I- N2N2 0 ;gi : - - N3N2 N3N2 2 1
LAN3 2 - N3N2 1 LlN3 2 -low22
13289.33 13280.50 13279.77 13284.15 13279.56 13282.97 13278.38 13272.90 13289.01 13214.22
16.90 8.07 7.33
11.71 7.13
10.53 5.95
1::: 1.79
14181.86 14172.68 14172.04
:z- rs 14175: 19 14170.44 14164.82 14181.61 14164.20
17.86 8.68 8.04
12.43 7.68
11.19
::2 17.61
2.20
16603.36 20.43 16593.28 10.35 36592.94 LO.01 16597.25 14.32 16592.09 9.16 16595.86 12.93 16590.70 7.77 16584.73 1.80 16603.24 20.31 16586.28 3.35
LlN4 1 - MN2 1 LAN4 A-MN22 Lirn 2 - MN2 1 LlN4 2 - MN2 2 LlN5 2 - NW2 2 LANS 2 - N5N2 3 LAN5 3 - MN2 2 LLN5 i -WIN23 LlNbZ-NW22 Llnb 2 - MN2 3 LlN6 3 - WN2 2 LlN6 3 - NM2 3 LAN7 3 - NtN2 3
Llh? 3 - NW2 4 LlN? 4 - NtN2 3 LlNt 4 - N7N2 4 LlNl 0 - NAN3 1 LANA 1 - MN3 1 LlNl 1 - MN3 2 LlN2 0 - lG?W 1 LINP 1 -I(zNSl Lull 1 - N2N3 2 LlN3 1 - N3N3 0
LlN3 A- Ium3 1 LlN31-N3N32 LlN3 2 - w3w 1 LU13Z-M3N3.2 LlN3 2 - KiN3 3
t:;: 1' -mm3 0 -mN31
LlN4 1 - MN3 2 LlN4 2 - WIN3 A LAM4 2 - IwN3 2
LlN4 2 - N4N3 3 LlN5 2 -MN31 LINS 2 -M5N32 LlN5 2 - MN3 3 LlN5 3 - MN3 2 LAN5 3 - W5N3 3 Llll5 3 - NSN3 4 Lllll Q - NW3 1
2:wN: : - NlN3 A - NlN3 2
LAN2 a - N2N3 1 LlNZ 1 - N2N3 1 LlNi 1 -N2N32 LAN3 A- h3N3 0 LlN3 1 -tUN32 LlN3 2 - ION3 2 LlN4 I -NW30 LlN4 1 - NW3 1 LAN4 1 -MN32 LlN4 2 - N4N3 1
LAN4 2 - N4N3 2 Llu42-NM33 Llh5 2 - N5N3 1 Llu52-N5rnZ LAN5 2 - N5N3 3 Ll65 3 - WY13 2
::iz i - N5N3 3 -IeN -N&N31 -wbN32
LlN6 2 -NW33 LlN6 3 - MbN3 2 LlNb 3 - WI 3 LlN6 3 - N6N3 4 LAN? 3 -um32 LlNt 3 - N7N3 3 11117 3 -N7N34 LAN7 4 - Nlk3 3 LAN7 4 - N7#A3 4 LlN7 4 - MN3 5
LAN1 0 - MN4 2 Lllu 1 - #AN4 1 LANA 1 - llN4 2 LlNZ 0 -N2n42 LlM2 1 - a2N4 1 LlN2 1 -H2N42 LlN3 1 - )(3N4 1
P. PARENTE et al. .L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,JY, eoHg, =At, and &a (in eV) See page 387 for Explanation of Tables
CLITINUN 2-78 l4EuuNv Z-80 ASTATINE z-85
13290.34 17.90 14182.99 13281.33 8.89 14173.56 13278.60 6.17 14170.72 13279.42 6.99 14171.56 132tb.70 4.27 14lb8.73 13271.02 -1.42 14162.88 1327b.65 4.22 14168.83 13271.08 -1.35 14162.95 13274.71 4.28 14168.90 13273.61 1.18 14165.60
18.99
z 7.56
-::n
-::z 4.90 1.60
16604.79 16594.23 16591.11 16592.01 16588.89
:83:f% 16582:73 16509.43 16585.66
21.86 11.31
8.19 9.08 5.96
-0.29 6.42
-0.20 6.50 2.73
13272.OA 13273.53 13271.92 13431.84 13401.05 13409.60 13426.65 13429.94
:;::: :d .
13421.26 13420.42 13421.55 13414. ?A 13421.55 13425.04 13426.67 13429.32 13433.86 A3436.50
-0.43 14163.90 -0.10 16583.73 0.80 1.10 14165.51 1.51 16585.55 2.62
-0.51 14163.81 -0.19 16583.62 0.69 74.34 14346.78 77.95 16818.33 87.87 43.55 143 14.51 45.74 16782.32 51.86 46.10 14317.25 48.43 16785.36 54.90 63.16 14335.23 66.41 16805.86 75.40 66.45 14338.65 69.83 16809.64 79.17 65.44 14337.60 68.77 16808.46 78.00 48.61 14319.45 50.62 16786.58 56.12
63.76 56.92 58.06 51.21 58.06 61.54 63.18 65.82 70.36 73.01
14335.28 14328.11 14329.36
:zzg$ 14333:ot 14334.77 14337.52 14342.15 14344.90
66.45 16864. lb 73.69 59.29 16796.15 65.68 60.54 16797.69 67.23 53.37 16789.68 59.21 60.54 16791.69 67.23 64.24 16801.99 71.52 65.95 16803.86 73.40 68.70 16806.89 lb.+2 73.33 16811.69 81.23 76.08 16814.72 84.25
13433.55 13429.78 13434.84 13434.58 13424.59 13424.33 13424.36 13370.34 :;jN;.E
.
13376.78 13377.48 13372.89 13364.45 13373.54
:1;;:-tt 13369:26 13373.58 133to.50
70.05 66.28 71.34 71.08 61.10 60.84 60.87
6.84 0.33
17.14
73.00 68.80 74.01 73.80 63.57 63.30 63.33
7.62 0.72
18.15
80.86 75.21 81.03 80.73 69.97 69.67 69.70
9.82 1.92
20.89
13.28 13.98
9.40 0.95
10.04 8.86 1.58 5.76
10.09 7.08
14341.83 14331.62 14342.89 14342.62 14332.40 14332.13 14332.16 A4276.44
::22z- zr .
14283.10 14283.84 14279.09 14270. lb A42t9.58 14278.34 14277.11 14275.23 142 79.72 A427b.61
14.28 15.02
1:-fi 1$7$
a:29
1::: 7.79
:b:$.:: 16811:SO l6811.2O
:4:::-:: . 16800.17 16740.29
:8x-:f .
16747.51 16748.36 16743.20 16732.88 16743.17 16741.18 16740.68 16738.63 16743.56 16740.19
17.05 17.89 12.13
2.42 12.71 11.32 10.21
8.17 13.09
9.72
13374.91 13370.44 13362.58 A3376.23 13366.25 13374.32 13364.35 13380.42 13362.85 13364.68
11.41
-i:E 12.73
2.76 10.83
0.86 16.92
-0.65 1.19
14281.11 14276.46
:z% 142&M 14280.42
:tfg% 14268:60 142 70.54
'f-C . -0.59 13.59
3.24 11.60
1.25 17.93 -0.23
1.71
16745.11 14.65 16740.01 9.55 16730.83 0.36 16746.37 15.90 16735.05 4.58 16744.14 13.67 16732.82 2.36 16751.05 20.59 16731.43 0.97 16733.64 3.17
13368.08 13364.75 13348.15 13362.82 13359.10 A3366.53 13364.77 13366.44 13364.69 13367.43
:-: : 4:as
-0.68 -4.40
3.03 1.27 2.95 1.19 3.94
34274.10 3.28 16737.60 7.14 14270.61 1.78 16733.12 3.26 14274.11 5.35 16731.69 7.22 14268.57 -0.25 16731.43 0.97 14264.63 -4*20 16726.94 -3.52 14212.44 3.62 16735.67 5.20 14270.61 1.7a 16133.61 3.20 14272.35 3.52 16735.56 5.09 14270.52 1.69 16733.56 3.09 14213.37 4.54 16736.63 6.16
13629.01 15.53 A4548.34 79.11 13598.86 45.38 14Sl6.80 47.57 13598.22 44.74 145A6.13 46.90 13bAt.A3 43.65 14536.06 66.83 13618.62 65.14 14537.59 68.36 13620.42 66.94 14539.48 70.25 13612.68 59.20 14530.82 61.59
17046.48 17011.23 17010.47
:;xx:*',x 1?036:91 17025.60
88.91 53.66 52.90 75.62 77.26 79.40 68.02
NAOIUN 2188
ENER66Y SHIFT
18197.78 22.14 10187.14 11.50 18AU7.02 11.38 18191.20 15.56 48Aa5.80 10.16 AuA89.71 14.07 18184.31 8.67 18178.13 2.49 18197.69 22.05 16A79.79 4.14 18199.34 23.70 A6188.08 12.44 18104.79 9.15 AibA95.71 10.07 18182.42 6.78 AU 75.93 0.29 A(1AU3.08 7.44 18176.02 0.38 AUAB3.17 7.53 AUA79.11 3.47
19177.04 1.40 10178.99 3.35 18176.92 1.28 18449.33 94.07 AU410.83 55.57 Au4A4.11 58.84 lM36.27 81.00 AdM40.26 85.00 l(1439.01 83.75 AlJ414.57 59.30
lC433.23 77.97 18424.68 69.42 10426.40 IA.14 18417.86 62.60 lU426.40 71.14 1~4JA.07 75.81 18433.05 77.79 AU436.25 80.98 AY441.13 85.86 18444.32 89.06
AS440.74 85.48 18434.41 79.A4 16440.57 85.31 18440.25 84.99 Ati429.21 73.95 Aawu.89 73.b3 ie42e.93 73.66 18366.62 AA.36 UU;:.g; 2.78
. 22.68
A(1374.17 18.90 18375.07 19.81 Ao369.67 14.41 A8358.44 3.18 13369.26 14.00 16367.77 12.50 A836b.75 IA.49 A(ub4.62 9.35 AIub9.BO 14.54 18366.27 AA.01
A8d71.46 lb.19 18366.08 10.82 lu3S6.2Y A.02 18372.65 17.38 AWb0.75 5.48 AU370.28 15.02 Ae358.38 3.12 A0377.54 22.28 A(i357.04 A.70 18359.40 4.14 ALU63.60 a.34 18359.50 4.23 AU363.69 8.43 18357.06 A.79 A(u52.25 -3.02 Ad361.49 6.23 AU359.4A 4.14 18361.37 6.11 llI359.29 4.02 A8362.46 7.20 10693.99 95.03 A8656.30 57.34 AUb55.50 56.53 labuo.os 81.08 lB681.75 82.73 Aa6M.OI er.oi 18670.72 71.76
TRANSITION ENEAGV SHIFT ENERGY StU FT ENERGY SHIFT
l.1n3 1 -113u42 LlN3 1 - Km4 3 L1113 2 - Mm4 0 LlM3 2 -KW41 LlM3 2 - rum 2 LII3 2 -R3#43
13615.57 62.09 14533.% 64.63 17029.00 71.43 13612.41 50.93 rrs*o, 54 61.31 17025.27 67.70 13604.90 51.40 14522.71 53.40 17016.69 59.12 13bOb.98 53.49 14524.91 55.68 17019.13 61.% 13609.87 56.39 14527.94 58.71 17022.53 64.96 13bO6.70 53.22 14524.62 55.39 17016.81 61.23 13622.10 60.62 14540.60 71.57 17037.01 79.44 13613.98 60.50 14532.25 63.02 17027.35 69.78 13a22.10 63.62 14540.00 71.57 17037.01 79.44 136 13.00 59.51 14531.05 b1.Q 17025.54 67.97
L1114 1 - M4N4 1 LW4 1 -MN42 LlW4 i -MN43 LlN4 2 - N4N4 0
Ll114 2 - MN4 1 LlM4 2 - MN4 2 LlM4 2 - n4n4 3 LlflS 2 - HSN4 1 LlllS 2 - m m 2 L115 2 - n5N4 3 LIM 2 - nsM4 4 L1115 3 - NW4 1 Al*5 3 - nsm 2 LlM 3 - MN4 3
LlM 3 - w5N4 4 LlNl 0 - NlN4 2 LlNl 1 - NlN4 1 LlNl 1 - NlN4 2 LlN2 0 - N2M 2 LlNZ 1 -UN41 LlN2 1 - N2N4 2 LlN3 1 - NW4 1 LlN3 1 - N3N4 2 LAN3 1 - N3N4 3
LlN3 2 - n3N4 0 LlN3 2 - UN4 1 LlN3 2 - N31u* 2 LlN3 2 -Km43 LlN4 1 - rr+N4 2 LlN4 2 -n4u40 LlN4 2 - MM4 2 LlNS 2 - NSNI 1 LlNS 2 - Nuts 2 LINS 2 - NSN4 3
LlPlS 2 - NSN4 4 LlN5 3 - NSU4 1 LlNS 3 - N5N4 2 LlN5 3 - k5N4 3 LlN5 3 - N5N4 4 LLN6 2 - MN4 1 LlN6 2 - MN4 2 LlN6 2 - MN4 3 LlNb 2 - MN4 4 LlNb 3 - MN4 1 LlW6 3 - MbN4 2 LlNb 3 - NbM4 3 LlN6 3 - NbW 4 Llk7 3 - NlN4 2 LlN7 3 - NIWI 3 LlN7 3 - N7W4 4 LlN7 3 - N7NI 5 LlN7 4 - NW4 2 LlN7 4 - NlM4 i LlN7 4 - NlN4 4
LlN7 4 - N7N4 5 llI(1 0 - NlNS 2 8.1111 1 - NlN5 2 LlNl 1 - UN5 3 LlN2 0 - IUNS 2 LlN2 1 - ItiNS 2 Llh2 1 - luN5 3 LlN3 1 - IuN5 1 L1113 1 - N3NS 2 LlN3 1 - MN5 3
LlN3 2 - N3N5 1 LlN3 2 - 113NS 2 LlN3 2 - M3N5 3 LlN3 2 - llfN5 4 LlN4 1 - h4M5 1 LlN4 1 - MN5 2 Llrn4 1 - N4N5 3 LlN4 2 -wNSl t::: f - - N4W5 MN5 3 2
LlN4 2 - 114115 4 Lla5 2 -n5mo LlM5 2 - M5NS 1 L11)S 2 - R5N5 2 LlXS 2 -Mm53 LlN5 2 - M5NS 4 LINS 3 - NSNS 1
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of &, soHg, &At, and =Ra (in eV) See page 387 for Explanation of Tables
PLATINUM L-78 MEncunI Z-00 AS7LTINE L-85
tz:-:; 13b29:29 13621.47 13623.91 13626.02 13622.42 13611.23 13613.66 13615.70
75.80 14546.18 78.95 17044.64 67.68 14539.63 70.40 17035.19 75.00 1454a. 18 70.95 17044.84 67.99 14539.70 70.47 17034.32 70.43 14542.25 73.02 17037.19 72.54 14544.47 75.24 17039.68 68.94 14540.69 71.4b 17035.42 57.74 14529.20 59.9? 17023.25 60.16 14531.76 62.53 17026.12 62.29 14533.911 64.75 17026.61
87.27 77.61 87.27 76.74 79.61
z*:: . 65.68 68.55 71.04
13612.17 13566.07 13564.01 13559.56 13573.53 1355G.11 13574.23 13561.14
:i:t ,‘*z .
:g”,:*:f 13564129 13559.82 13W2.23 13554.65 135b3.55 13559.73 13561.20 13564.90
::-:: 1o:sz
6.07 20.05
4.63 20.75
7.66 11.99
7.52
8.30 6.48
lo*80 6.34 8.75 1.36
10.07 6.24 7.72
11.42
14530.19 144I2.76 144ao.52 14475.89 14490.56 14474.51 14491.30 14477.50 14482.00 14477.35
14478.15 14476.21 14480.76 14476.11 14476.72 14671.03 14430.11 14476.07 14477.61 14411.46
60.% 13.55 11.29
b.bb 21.33
5.28 22.07
9.27 12.77
8.12
17024.36 lb973.76 16970.96 16965.96 16982.38
:::86;*:: 16967:51 16972.44 16967.34
66.79 16.19 13.39
8.29 24.81
1.14 25.65
. 194.:
9.77
6.92 16968.16 7.03 16966.12
11.4 16971.04 6.88 16965*95 9.49 16969.07 1.80 16960.59
10.08 16970.63 6.M 16966.01 8.38 16967.70
12.23 16971.95
10.59 8.55
13.47 8.37
11.50 3.02
13.05
10":: 14.39
13559.30 5.12 14475.63 6.40 16965.51 7.94 13557.63 4.34 14474.08 4.85 16963.79 6.21 13559.30 5.81 14475.61 6.38 16965.48 7.90 13563.00 9.51 14479.47 10.24 16969.73 12.16 13557.40 3.92 14473.63 4.40 16963.29 5.71 13547.44 -6.05 14463.30 -5.93 16952.00 -5.49 13559.40 6.00 14475.98 6.75 16966.26 0.69 13551.28 -2.20 144b7.40 -1.83 lb956.79 -0.78 13564.42 10.94 14481.13 11.90 16971.92 14.35 13547.50 -5.98 14463.37 -50% 16952.17 -5.40
13559.55 13551.35 13564.48 13552.34 13555.23 13557.81 13552.43
:3x:;% 135!37:73
6.06 14476.05 6.82 16966.35 8.77 -2.14 14467.47 -1.76 16956.98 11.00
-0.69 14461.20 11.97 16972.01 14.44
-1.14 14466.45 -0.78 l69S7.76 0.20 1.75 14471.49 2.26 16961.22 3.65 4.33 14474-22 4.99 169b4.29 6.71
-1.05 144bII 53 -0.70 lS957.09 0.30 -1.22 14468.35 -0.88 16957.67 0.09
1.64 14471.40 2.17 16961.11 3.53 4.24 14474.12 4.69 16964.17 6.60
13452.34 -1.14 146b6.44 13646.36 75.84 14Sb6.16 13615.57 45.05 14535.97 13616.46 45.94 14536.92 13634.07 63.5b 14555.48 13637.36 66.84 14551).90 13636.66 66.34 14550.37 13627.19 56.61 14547.68 13631.85 61.33 14552.59 13632.20 61=69 14552.94
-0.79 79.4b 47.25 48.20 66.75 70.18 69.b4 58.%
66i.g .
53.04 57.94 58.30 57.31 64.85 bT.25 69.37 72.23 74.63 76.75
lb957.77 17074.43 l77;i.g
17Obo: 66
:;,“3-t3 17050: 19 17055.67 17056.06
0.19 69.44 53.43 54.49 75.67 79.45 78.84 w5.20 70.69 71.07
13621.48 50.96 13626.15 55.63 13626.50 55.96 13625.54 55.03 13632.72 62.21 13635.02 64.90 13637.04 66.52 13b39=91 69.39 13642.20 71.69 13b44*22 73.70
;f;z :I
14547:OZ 1454b. 03 14ss3.57 14555.9B 145 58.09 145bO.95 1450.36 14565.47
17043.72 58.73 17049.21 64.22 17049.59 64.60 17040.52 63.53 17057.01 72.02 17059.69 74.70 17062.05 77.07 17064.94 79.05 17067.52 (12.53 17069.88 84.90
13640.79 70.27 14561.88 73.15 1362L.36 57.85 14548.55 59.83 13644. uo 74.36 14565.90 77-17 13635.50 b4.99 1455b.05 67.33 13b47.41 76.90 14569.55 79.93 13638.48 b7.96 14s59.17 70.45 13634.63 64.11 14555.40 b6.68
17065.96 17049.91
:%~*5: 17072:35
10.87
XJ 73.35 87.36
415
nmlun
ENERGV
18674.35 16b70*36 lu461.31 18663*90 uwb7.53 ub63*55 l(1663.04 1867L.69 16683.04 18670.47
Z-80
SHIFT
75.39 71.41 62.34 64.93 68.56 64.59 84.07 73.72 84.07 71.51
18691.12 10660.76 3=:x . 16b91.12 92.15 18679.54 80.58 186U2.64 83.64 lUbb5.26 86.30 UbL10.72 31.76 18~B.lB 69.22 18671.24 72.28 la673.90 74.94
l8bb9.36 E’9’9 lu616.95 .
lW13.76 14.80 ld6OB.3? 9.40 18626.05 27.09 lb601.40 a.43 L6626.96 27.99 16610.01 11.05 10bL5.20 16.23 U6G9.62 1O.M
18610.65 11.69 18606.51 9.55 19613.71 14.74 18400.33 9.37 lUb11.76 12.81 UbO2.82 3.85 l%l3.43 14.47 10bOG.44 9.40 u6&0.23 ll.21 18614.72 15.76
16607.9L 8.95 18606.08 7.11 lu607.07 8.90 1%12.3b 13.39 1a605.55 6.59 18593.83 -5.14 ldbOU.08 9.91 18598*91 -0.06 A.db14*63 15.86 llb93.92 -5.04
lc16OB.97 10.01 lUL99.00 0.03 leb14.92 15.96 I8599.03 0.86 18603.50 4.53 l(lbO6.17 7.80 16599.93 0.97 18599.71 0.74 30603.36 4.41 UItaOb.65 7.66
us99.u 0.05 18727.86 iw09.37 ‘ss-:; 18690.50 511:31 16113.41 61.21 11)117*4l 85.21 l07lb.7b 04.57 18701.04 68.84 lllQb.69 74.69 16707.28 75.09
16694.21 62.02 107oo.w b7.07 l8700.4b 66.26 le499.W 67.14 187Oa.42 76.22 1117Ll.27 79-08 18713-79 81.60 IYIAb.50 84.30 18719.35 87.15 l812l.87 69-67
18717.58 05.39 16700.23 b8.03 16721.02 89.82 19709.23 77.03 16724.17 91.97 16712194 60.76 111709.66 77.46
416
lu*Ys1lIoN ENERGY SHIFT ENERGY SHIFT ENERGY SHIFT
LINS 3 - WMS 2 11ns 3 - MSNS 3 :% x - MS115 4
-MM5 LAM1 0 - NlMS 2 Lull 1 - MlMS 2 LlNl 1 - MAMS 3 LAN2 0 - UN5 2 LlM21 -(UN52 LAN2 1 - UN5 3 LlM3 l- N3NS 1 LAN3 1 - UN5 2 LAM3 1 - mhs 3 LlW 2*- M5Ms 1 LlN3 2 -mMsz LlM3 2 - UN5 3 LlM 2 - M5Ms 4
13625.26 l3631.11 13626.23 13635.34 13S11.21 13514.69 13581.26 13Sll.96
fz% . 13570.60 13514.24 13514.27 13569.42 13563.W 13573.09 13569.16 13575.66 13577.33 13581.03
S4.14 66.65 57.71 64.62
‘X ;p;
1;::: .
0.00 13.73
3.76 -1.10
'5% 1::g
6162 10.52
14545.55 14su). OS 14SU.67 145% 14
:tipoo:
:t:g::: M&A:
.
144a9.11 14503.29 14492.94 14407.87 14502.05 14491.70 14501-38 14494.67 14496.20 14500.96
56.a 69.33 59.95 61.42 11.51
1::: 12.36 13.12 10.29
17047.28 62.29 17061.29 76.30 17050.7 7 65.79 17059.16 14.17 16999.09 14.10 16991.19 6.20 16996.71 13.72 17000.02 15.03 17000.66 is.91 16997.74 12.75
0.39 14.57
-kit 13i33
1f:Z
52 11.34
16966.34 1.36 17001.88 16.09 16990.57 5.58 16964.95 -0.04 17000.49 15.50 16969. I7 4.19 17007.40 22.41 16992.65 r.b6 16994.34 9.35 16998.59 13.61
LlN4 1 -WMSl Llk4 1 -M4Ms2 '.I114 1 - WINS 3
Llk4 2 - h4NS 1 LlN4 2 - MN5 2 LAN4 2 - MN5 3 LlN4 2 - MN5 4 LlNS 2 - NSNS 0 LlNS2-NSNS2 L1NS 2 - NW5 4 LlNS 3 - MSNS 2 LINS 3 - NSMS 4 LlN6 2 - MbNS 0 LlN6 2 z Mb6 j
tfz f -M6Ms3
t:: f : g;; : LlM6 3 - WMS 2 LlM 3 - WNS 3 LlN6 3 - WMS 4 LlM6 3 - iwM5 5 L1Nl 3 - Ml&S 1
2::; : - - NlNS Mtns 3 2
LlMl 3 - NINS 4 LAN7 3 - N7NS 5
‘L::: t - - N7MS rims 2 3 LlN7 4 - MTM5 4 LlN7 4 - N7M5 5 x : - - Mm5 huMlO 6
L2M2 0 - fl2n1 1 LU2 I- MM10 L2N2 I -a2ml L2m3 I- lull 1 L2M3 1 -Iu1112 L2lO i -i&Ml1 L2n3 2 - Msii 2 L2M4 1 - lwN1 1 L2fl4 1 - MM1 2 UM 2 - M4Mll
tz3 f - MM12 - MSNI 2
LPIIS 2 - MSMl 3 L2115 3 - MS)11 2 L2MS 3 - #Is111 3 L2Ml 0 - NlNl 1 L2Ml 1 - NlMl 0 L2Ml 1 - NlMl 1 L2M2 0 - utu 1 L2N21- uluo
LtN2 1 - &Ml 1 12113 l - N3Mi 1 L2M3 I- M3112 LW 2 - Mull 1 L2M3 2 - MM1 2 L2N4 1 - MU1 1 L2N4 1 - Wll 2 L2N4 2 - MM1 1 L2M4 2 - war 2 L2MS 2 - Wfil 2
zt f : $1' t LPN5 3 - NSMI 3 LtlY6 2 - M6fil 2 L2M6 2 - #Ml 3 L2M4 3 - an1 2 L2M6 3 - M6Ml 3
F. PARENTE et al. L X-Ray !Satdlite Energies
TABLE II. L X-Bay Satellite Energies of 78R, aoHg, =At, and J&x (in eV) See page 387 for Explanation of Tibl&
PLATIMIM 2-m
:33:X% :;;:::::
13569:61 13577.65 13500.13 13575.75 13576.03 13569.05
6.67 144s.06 8.14 14497.59
11.04 14501.45 6.24 14495.61
-0.90 144m.10 7.13 14496.#
10.22 14499.70 5.23 14494.49 a.31 14497.70
-1.47 144cI.41
13360.59 -1.93 13572.44 1.92 13573.56 3.64 13514.99 4.47 13566.65 -1.67 13572.50 1.96 13573.63 3.11 13575.05 4.53 13569.99 -0.53 13563.02 -7.50
l3573.11 13567.67 13579.32 13566.95 13513.02 13561.59 13419.24 13566.67 '$::a;
. 10026.48 10003.96
9985.12 9976.35
10013.86 9979.24
10016.76
:t:;f*;; 9992:SO
2.59 -2.65
8.8'
-I-x: -',:;;
. -3.65 10.03 26.02 65.79 10699.02 43.21) 10675.12 24.44 10655.64 15.66 10146.3e 53.10 10665.12 l&S6 10649.37 56.07 10609.12 51.89 10613.76 43.05 10674.62 31.02 10663.2O
9963.66 22.97 9986.43 25.74 9999.68 39.20 9959.26 28.60
10002.74 42.05 9966.93 8.25 9959.06 -1.63 9969.73 9.10 9970. D2 10.14 9963.65 2.97 9962.41
t~tX% ;94&
9966152 9965.86 9962.67 9962.02 9963.26
1.73 2.85 5.40 3.47 6.02 $.I4 1.19 1.90 1.34 2.56
9964.17 3.49 9963.02 3.14 9964.73 4.05 9959.38 -1-30 9956-09 -2.59 9959.29 -1.40 99S6.W -2.69
NEMUIr
144e7.14
:zx M+~~:~~
14491:26 14492.4s
:c'&:i 144&l. 23
14491.65 144w. 17 14490.30 14465.44 14491.76 144W.06 14490.29 144as.35 I4500.46 106577.35
lOIS4.04 10656.55 10670.49 10659.45 10673.39
EZO 106399:64 10640.84 lOb33.21
10631.91 10633.06 lO635.75 10633.71 10636.40 10636.23 10635. sb 10632.19
fs% . 10653.72 10633.36 10634.31 10620.69 10627.29 10628.58 10627.19
Z-80 ASlA71ME
7.33 8.67
12.72
-“,:s 7.76
10.97 5.?6
-:::
16994.20
:%?:: 16993:ll 16955.23 16994.50 16998.04 16992.27 16995 A2 16964.94
-A59
f:Z 5.15
-1.52 2.53 3.12
-0”:s -1.49
16984.47 -0.51 16989.00 4.01 16990.35 5.36 16992.03 7.04 16964.56 -0.43 16909.09’ 4.10 16990.43 5.45 16992.12 7.13 169U6.11 1.12 16971.76 -7.23
-i:E
-;:g
2% 9.56
-3-37 11.13 27.26
16969.64 4.65 16983.38 -1.61 16996.90 11.92 16962.66 -2.33 16989.53 4.54 16903.27 -1.72 16996.19 11.80 16962.54 -2.44 16999.09 14.10 12416.32 31.01
66.H 45.05 25.57 16.30 55.05 19.30
x 44:ss 33.13
:f5:3’:f 12474:23 124b3.60 12505.46 12464.86 12508.72 12593.69 12493.91 12482.15
2:; 40:u 29.38 43.32
4:: 9.57
i0.n 3.14
12412.17 26.66 12473.63 26.51 12469.03 43.72 12476.64 31.53 12492. OS 46-14 12455.32 10.01 12443.72 -1.60 12456.32 11.01 12457.91 12.67 12449.06 3.75
::g 5.66 3.64 6.32 6.16 5.49 2.12
::S
12447.61 2.29 12446.64 3.53 12451.80 6.57 12449.57 4.26 12452.61 7.30 12452.46 7.M 12451.11 6.40 12447.95 2.64 12447.19 1.08 12446.46 3.15
3.65 12449.53 3.26 12449.11 4.24 12450.17
-1.3a 12443.87 -2.70 l2442.20 -1.49 12443.74 -2.69 12442.08
z-as
9.22 10.91 15.16
a.72 0.26 9.51
13.05 1.20
10.83 -0.05
77.79 50.03 28.92 18.29 LO*15 21.55 63.40 58.58 46.60 36.64
4.22 3.79
-::z -3.11 -1.57 -3.24
NAOIUM Z-Se
El&ICI SHlFl
16691.61 65.67 1~112*81 LO.61 18101.59 69.40 16710.54 16.35 18b4Y.02 15.62 1%30.44 1.25 i6b47.36 1s.is l6646*99 16.80 14649.90 17.70 16646.61 14.41 16634.24 2.04 16b50.59 18.40 16b38.70 6.50 l6633L.74 0.55 lab49.10 16.91 16637.20 5.01 18616.37 24.17 1664l.00 8.60 16642.79 10.59 Ub47.26 15.06 16b42.65 10.45 16644.44 12.24 16640.93 16.73 16b42.IP 9.93 16633.07 0.07 10642.64 10.64 16646.56 14.39 l6b40.47 6.26 IYb44.22 12.02 Ub32.86 0.67
lUb32.41 0.21 16b31.2l 5.01 Mb3lLbS 6.45 10640.44 6.25 16b32.59 0.30 16637.30 5.11
:E?:f . 6.53 6.34 Mb34.13 1.93 lEb25.2L -6.99
Mb31.6A 5.62 18031.24 -0.96 Mb45~50 13.30 16b30.53 -1.66 10637.69 5.59 Mb31.12 -1.08 lUb45.38 13.18 ub30.39 -1.00 Ub41.74 15.55 13673.73 33.20
11t23.@6 83.40 13693.49 53.03 13411.36 30.90 i3b59&l 19.35 13ro3.55 b3.09 13663.22 22.77 137Qb.97 bb.51 13101.71 61.31 Ub9A.20 50.62 13619.42 36.96
~364#.r)2 28.4b 13#9.9;1 29.47 i3b65.93 45.47 l3b73.00 32.54 13bn9.00 46.54 13651.44 11.00 13b39.05 -1.41 13bSL.54 12.06 13654.51 14.05 ub44.73 4.27
13643.18 2.72 lJb44.45 3.99 u641.72 1.26 ub45.22 4.n l3b46.50 6.04 u649.33 1.61 nb47.53 7.01
:2-t: I. 3.08 2.26 13643.99 3.53
13645.12 4.b6 13b44.66 4.20 Ub45.60 5.34 lM39.011 -1.38 13631.2b -3.20 13638.94 -1.52 13637.13 -3.33
TRAhSITlON
L2W7 3 - N7Ml 3 L2N7 3 - h7h 4 L2N7 4 - N7Hl 3 ~2~7 4 - N7Q 4 L2lll 0 - Mu+3 2 I.2111 1 - Mlfi3 1 I.2111 1 - WlM3 2 uu 0 - 112113 2 L2M2 1 - Mm3 1 LZWZ 1 - fi2113 2
E:: : - - 113113 Km3 0 2
L2M3 2 - M3W3 2 L2l4 1 'Mm31 L2M4 1 -Ilk&%2 LZI(4 1 - 114113 3 L2M4 2 - la4113 0 LtM4 2 - 114113 1 ~2114 2 - ukn3 2 L2M4 2 - 844113 3
L2H5 2 - l5lu 1 L2M5 2 - usn3 2 L2115 2 - (15113 3 L2W5 2 - Mei 4 L2M5 3 - M5M3 1 L2R5 3 - M5113 2 LPWS 3 - 115113 3 L2W5 3 - ((510 4 L2Nl 0 - NlN3 2 L2Nl I - NW3 1
L2Nl 1 - N113 2 LZNZ 0 - N2M3 2 L2N2 1 - WIU 1 L2N2 1 - N2113 2 L2N3 1 - N3U3 1 L2N3 1 - N3W3 2 LZW 1 - h3lci 3 L2N3 2 - N3113 0 L2N3 2 - h3113 1 L2N3 2 - N3M3 2
L2N3 2 - N3M3 3 L2N4 l- N4M3 1 L2N4 1 - lr4n3 2 L2N4 1 - h4U3 3 L2N4 2 - WM3 0 L2N4 2 - NkN3 1 L2N4 2 - h4n3 2 L2N4 2 - N4113 3 L2NS 2 - N5M3 1 L2NJ 2 - hSM3 2
L2N5 2 - N5M3 3 L2h5 2 - k5M3 4 L2N5 3 - k5113 1 L2N5 3 - 115113 2 LZNS 3 - h5W 3 L2N5 3 - N5M3 4 IAN6 2 - h66M 1 L2N6 2 - MM3 2 L2N6 2 - k66113 3 L2N6 2 - N6n3 4
L2N6 3 - N6H3 1 L2N6 3 - N6M3 2 L2N6 3 - N03 3 L2h6 3 - N6n3 4 LPN7 3 - N7M3 2 L2N7 3 - N7c13 3 ~2N7 3 - N7n3 4 L2N7 3 - N7M3 5
t::: f - - N7U3 Fi7M3 2 3
L2N1 4 - NlM3 4 L2N7 4 - N7M3 5 L2lll 0 - 111114 1 L2Hl 1 - nut4 1 L2ll 1 - mm4 2 L2112 0 - a2R4 1 UN21 -UN41 L2112 1 - M2M 2 L2N3 1 - Mu14 0 L2M3 1 - W3M4 1
L2M3 1 - KW4 2 LU13 2 - ia 1 L2n3 2 - n3m 2 L2113 2 - UM 3 L21(4 1 - mm 0 L2114 1 - MU4 2 L2I(4 2 - M4R4 2
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of &‘t, soHg, =At, and &a (in eV) See page 387 for Explanation of Tables
PLITINUN z-70 l4EmcumY 240 ASTATINL 245 ilAO1UH I=88
ENERGY SHIFT ENERGY 941 FT ENERGY SHIFT ENERGY SHIFT
9957.61 9959.28 9957.64 9959.30
10670.89 10637.21 10174.12
::",',;-:; . 10637.93
-3.07 10626.76 -3.31 124441.56 -3.75 13636.55 -3.91 -1.41 10620.57 -1.51 12443.70 -1.61 13638.88 -1.57 -3.05 lG626.79 -3.28 12441.59 -3.72 13636.58 -3.88 -1.39 10628.59 -1.48 12443.74 -1.58 lS638.92 -1.54 51.09 11406.98 53.29 13417.63 59.48 14752.34 63.32 17.42 11372.22 18.53 13380.14 21.99 14711.20 24.19 54.93 11410.97 57.28 13421.99 63.85 1475b.94 67.93 59.50 11416.27 62.58 13429.49 71.35 14760.01 77.00 28.42 11383.48 29.79 13391.95 33&l 14725.29 36.27 18.14 11372.89 19.20 13380.62 22.41 14713.51 24.50
10652.73 10635.18 10655.62 10662.56 10672.40 10661.98 10644.66 10642.49 10652.33 10t41.90
10632.41 10661.74 10642.76 10673.02 10635.26 10664.60 10645.61 10675.67 10624.36 10622.19
32.93 15.38 35.83 42.77 52.61 42.18 24.87 22.70
3t=:: .
12.61 41.95
3:-x; . 15.47 44.80 25.82 56.08
4.57 2.39
11387.91 34.22 13396.03 37.80 14729.02 40.01 11369.83 16.14 13376.62 18.47 14706.BL 19.80 11390.90 37.21 13399.28 41.14 i4731.*4 43.42 11398.11 44.42 13407.06 46.92 14740.51 51.49 11408.25 54.56 13417.96 59.82 14751.61 62.65 11397.50 43.81 13406.40 48.26 14739.62 50.80 ll379.73 26.05 13307.61 29.47 I4220.49 31.48 11377.53 23.84 13385.32 27.18 14733035 29.14 11387.67 33.98 13396.22 36.08 l4729.51 4o.50 11376.92 23.23 13384.66 26.52 14717-46 20.45
11366.79 13.10 11397.02 43.33 11377.49 23.80 11408.62 54.93 11369.70 16.01 11399.93 46.24 11380.40 26.71 11411.53 57.84 11358.47 4.70 11356.20 2.51
13372.11
3’4% . 13417.66 13315.79
:3f::% 13420:67 13363.67 13361.13
14.63 14704.37 15.36 47.10 14738.;10 49.19 26.18 14716.44 27.43 59.51 14751.11 62.09 17.65 14707.44 18.43 50.12 14141.27 52.26 29.20 14719.51 30.50 62.53 14754.18 65.16
5.52 14695.lO 6.14 2.99 14692&b 3.44
10625.21 5.42 11359.36 5.67 13364.67 6.53 14496.23 7.22 10628.98 9.19 11363.44 9.75 13369.56 11.44 14701.72 12.70 10621.65 1.86 11355.64 1.95 13360.50 2.36 146Yl.77 2.15 10620.57 0.78 11354.50 0.81 13359.21 1.07 14b90.39 1.37 10627.36 7.57 11361.58 7.89 13367.03 8.88 14faYB.bI 9.62 10620.52 0.72 11354.42 0.73 13359.01 0.87 I46YO.09 1.00 10627.36 7.57 11361.58 7.89 13367.03 8.86 14b98.64 9.62 10612.82 -6.97 11346.40 -7.29 13350.18 -7.w 14666.75 -8.26 10t27.9a 6.18 11362.23 a.54 13367.16 9.61 14699.42 10.40 10621.14 1.34 11355.o6 1.38 13359.74 1.60 14690.67 1.86
10627.98 8.18 11362.23 8.54 10623.95 4.16 11358.06 4.37 10626.05 7.05 11361.09 1.41 10623.68 3.89 11357.77 4.08 106L0.01 -1.79 11351.82 -1.86 10620.10 0.31 11354.02 0.33 10622.99 3.20 11357.05 3.36 10619.83 0.04 11353.73 0.04 106111.50 -1.30 11352.29 -1.40 10623.16 3.37 11351.18 3.49
13367.76 13363.10 13366.511 13362.06 13356.23 13358.61 13362.07
:zx’%zi . 13362.07
9.61 14499.42 10.40 5.04 14694.55 5.54 8.44 14698.10 9.17 4.72 14694.21 5.20
-1.92 14b87.17 -1.64 0.52 AkbbY.Ib 0.75 3.93 14693.39 4.36 0.20 14689.42 0.40
-1.56 14667.4b -1.56 3.93 14b93.30 4.29
10623.51 3.12 11357.54 3.85 13362.45 4.31 10622.56 2.76
14693.70 4.69 11356.56 2.87 13361.38 3.24 lti92.58 3.56
10619.06 -0.74 11352.87 -0.82 13357.23 -0.91 146km.13 -0.m 10623.72 3.93 11357.77 4.08 13362.71 4.57 14693.Yb 4.97 10624.07 4.26 11358.13 4.44 13363.10 4.95 10623.12
14694.36 5.36 3.32 11357.14 3.45 13362.03 3.68 14bY3.2b 4.24
10614.93 -4.86 11348.45 -5.24 13352.09 -6.05 14682.58 10617.07
-6.43 -2.72 11350.74 -2.95 13354.72 -3.42 14685.40 -3.61
10419.70 -0.01 11353.67 -0.02 13350.18 0.04 I4409.lI) 0.16 10615.49 -4.30 113w.04 -4.65 13352.72 -5.42 14463.23 -5.76
10614.83 -4.% 10616.91 -2.81 10619.69 -0.10 10615.40 -4.39 10612.88 -6.91 10618.37 -1.42 lOC11.68 -2.11 lOblB.45 -1.34 10612.91 -6.88 10618.40 -1.40
10617.71 10618.47 11098.32 11102.16 11093.32 11111.72 11070.36 11104.96 11093.46 11091.29
I:-$; 29:60 33.44 24.59 42.99
3::z 24.74 22.57
11348.35 11350.63 11353.56 11341.93 11346.21 11352.14 11351.36 11352.26
g-:7' .
11351.39 11352.29 11851.82 11855.10 llB46.65 11866.16 11822.78 11658.66 11046.49 11844.28
-5.34 13351.97 -6.17 14662.45 -6.57 -3.06 13354.59 -3.55 lh65.21 -3.75 -0.13 13358.05 -0.09 14689.04 0.03 -4.75 13352.60 -5.55 14ba3.10 -5.92 -7.48 13349.34 -8.80 14b79.52 -9.49 -1.55 13356.38 -1.77 14601.20 -1.81 -2.33 13355.38 -2.71 14696.07 -2.95 -1.43 13356.61 -1.53 1U.bl.50 -1.51 -7.46 13349.38 -a),77 14679.56 -9.46 -1.52 13356.41 -1.73 14667.23 -1.70
-2.30 -1.40 31.08 35.06 25.90 45.42
3:s 25.15 23.54
13355.41 13356.64 13907.02 :‘m;.‘*;
. 13924.02 13675.15 :32;0’.3;
13898:02
-2.14 14664.10 -2.92 -1.50 14667.54 -1.48 35.41 I52bY.31 38.12 39.77 15213.91 42.73 29.79 lSL63.4L 32.23 52.41 A5268.12 56.93
3.54 L523S.62 4.44 42.76 L5216.95 45.77 28.70 15261.60 30.41 26.41 15259.26 28.07
11101.13 32.40 11854.42 33.68 11094.18 25.46 11847.28 26.54 11104.02 35.30 11657.42 36.68 11093.60 24.67 11846.67 25.93 11016.26 17.54 11839.01 18.27 11110.43 41.70 11863.98 43.24 11090.3s 21.63 11843.41 22.66
13908.92 13901.28 13912.18
:ftKif 13919:05 13897.31
37.31 15270.62 39.43 29.67 15202.bl 31.49 40.57 13274.03 42.85 29.01 15261.96 30.79 20.44 ASL52.76 21.59 47.43 15261.00 49.81 25.69 15258.04 27.4b
417
418
laAhSlrIaN
LZNS 2 - NH4 1 LZI(S 2 - Mm4 2 LZNS 2 - MN4 3 UN5 3 - li3UM 2 LZNS 3 -NM43 L2U5 3 - MM4 4 UN1 0 - mim 1 LZNI 1 - NAM4 1 LZNl 1 - NlM 2 LZN2 0 - N2N4 1
LZN2 1 - N2M 1 LW2 1 - wN42 LZN3 1 - NM4 0
L2N3 LPN3 l:: %z : 1 LZN3 2 - N3Nk 1 L2N32 -n3N42 L2N3 2 - N3M4 3 LWS 1 - N4N4 0 LZN4 1 - m m 1
L2N4 LWI 2 I 1 $4 :
L2N4 2 - NM4 2 L2N4 2 - 114114 3 LZNS 2 - N5R4 1 L2Nf 2 - NSM4 2 LZNS 2 - N3N4 3 LtNS 3 - ti* 2 LZNI 3 - ISM 3 LZN5 3 - N5N4 4
t::: z -NbMl -NbMkZ
LZNb 2 - NbN4 3 L2Nb 3 - h61w 2 LZNb 3 - NbM4 3 L2Nt 3 - NbMk 4 LZN? 3 - N?Mb 2
;3n”i i - - M?N4 m7m 3 4 UN? 4 -N7N43
LZN? 4 - NW4 4
SE: t - - NlNl )ilm 5 1 LPN1 1 - NlNl 0 LZNl 1 - NlNl 1 LZN2 0 - N2Nl 1
z:: : - - N2Nl N2Nl 0 1 tz : - - lull1 N3Nl2 1
L2N3 2 - N3Nll L2H3 2 - N3Nl 2
- N4Nl 1 - MN1 2
LZM 2 - MN1 1
::"; f - - MN1 NSNl 2 2 LZN5 2 - NSNl 3 L2N5 3 - NSNl 2 UN5 3 - N5Nl3
:f;: A - - N2Nll NlNl 0
LWZ I- N2NlO L2N2 1 - N2Nl 1 LW3 l- N3Nll L2N3 1
Et3 f 1 - WNlP
g”w; ;
UN* 1 -N4Nll LZM 1 - NkNl 2
tf:f 3 -WNll - N4Nl2 L2N5 2 - NSNl 2
tii: f - NsNl3 - N5N12
LZNS 3 - N5Ni 3 LZN4 2 - NbNl 2 1.2Nb 2 - WNl 3 LLwb 3 - NbNl 2 LZIb6 3 - N6Nl 3
L2Nl 3 - N?Nl 3 LZNl 3 - MM1 4 L2Nl 4 - NlN1 3 LZNl 4 - NlNl 4
:z: ; - - ll1N3 NlN3 2 1 LZMl I - NlN3 2
F. PARFJNTE et al. L X-Ray 88tollite Energies
TABLE II. L X-Ray Satellite Energies of ,$t, eoHg, =At, and &a (in eV) See page 387for Explanation ofTables
PLATIMN 2978 MRCUNY T-80 ASTAIINE L-85
ENER6Y SHIFT ENERGY SH1 FT ENERGY SMIFT
11081.58 11092.05 11102.41 11094.90 yu~.zg
11072:42 11073.21 llCl2.26 11016.98
18.86 11840.22 23.32 11844.85 33.68 11855.54 26.18 11847.75 36.54 11858.45 21.06 l1842.47
3.10 11824.67 4.55 11825.56 3.53 11824.50 8.26 11829.51
19.48 24.10 34.80 21.01 31.10 21.n
3.93
2: 8.82
13892.94 13897.91 13909.50
:zt:f-X: 13895128 13876.31 13871.31 13876.13 13882.12
21.33 26.35 31.88 29.37 40.90 23-M
4 .t.9 5.70 4.51
10.51
:::;::I: .
f:8E: . 11074.28 11072.26 11074.90 11011.94 11at1.95 11078.24
-0.15 2.13 1.28 2.92
3:: 6.18 3.22
-6.17 9.52
11820.63 11823.65 11822.13 11823.83 11826.58 11824.48 11821.23 11824.15 11813.66 11830.79
-0.11 2.91 1.39
3-z a:74 6.49 3.41
-1.08 10.05
13871.75 0.14 13815.14 3.53 13813.41 1.80 13875.29 3.67 13878.31 6.70 13816.02 4.40 13819.01 1 .w 13875.65 4.04 13863.85 -7.16 13883.15 11.54
::t;:*:: llObb:27 11014.39 11068~90 11c11.19 11013.21 11c71.15 llG73.11 11070.34
1.39 5.66
-2.46 5.66 0.11 2.47 4.49 3.03 S.05 1.62
11822.24 11824.15 11818.20
::ti$-1 . 11823.34 11825.45 11823.92 11826.04 11822.44
1.50 13813.49 1.88 6. a0 13818.64 7.02
-2.W 13868.98 -2.64 6.00 13878.64 1.02 0.19 13811.96 0.35 2.60 13874.64 3.03 4.71 13877.01 5.39 3.18 13815.29 3.61 5.30 13811.65 6.04 1.10 13813.63 2.02
11061.99 -6.14 11068.80 0.01 11065.35 -3.38 11068.10 -0.02 11065.25 -3.47 11c70.14 2.02 11064.42 -4.30 11066.94 -1.18 l10b8.56 -0.16 11066.97 -1.14
11813.47
::t:i=t; 11820:?5 118Lb.96 11822.99 118 lb. 12 11818.82 11820.57 11818.85
-?.Z? O-11
-3.68 O=Ol
-3.18 2.25
-4.63 -1.92 -0.17 -1.90
13863.10 13871.91 13867.29 13811.79 13861.16 13874.54
t3:6”,-51 13871:Sl 13869.48
-8.51 0.30
-4.33 0.17
-4.45 2.92
-5.32 -2.11 -0.10 -2.14
LlOb8.59 -0.14 11820.60 11065.01 -3.11 11816.75 12599.08 60.10 13459.89 12592.19 53.81 13452.63 12602.92 64.54 13463.87 12630.43 92.05 13492.04 12590.58 52.20 13451.03 12589.a7 50.69 13449.46 12594.44 56.08 13454.59 12591.48 59.11 13451.75
-0.01 -4.61 71.99 63.15 76.36
109.29
8’,-:x . 64.64 68.17
12591.35 58.98 13457.58 12bO0.38 62.00 13460.14 12616.82 18.44 134??.?? 12615.80 77.43 13416.?1 12596.75 58.3? 1345?.19 12S95.73 51.35 1345b.13 12bOl.bO 63.23 134b1.19 12603.15 b4.18 X%463*41 12604.46 66.08 134b4.ro 12606.01 61.63 134bb.32
-0.14 13871.54 -4.00 13861.01 63.67 15198.33 56.41 15190.09 b1.65 15802.10 96.62 lS835.63 54.82 15188.52 53.24 15786.16
::*3: . :z= x’: .
61.36 15794.23 64.52 15197.11 81.55 15816.19 80.49 15815.01 60.98 15794.45 59.91 15793.21 65.57 15198.18 67.19 15799.99 68.48 15801.20 10.10 15803.01
61.89 71.43 89.85 88.bl 68.11 66.93 71.84 13.65 74.86 16.61
lZS45.W 12555.89 12556.31 12541.48 12540.05 12556.86 12540.61
:fztX 12546:95
12547.55
:;;:tf-; U&Z
. 12549.26 12540.39 12538.03 12540.29 12537.94
7.18 17.51 11.93
:*:s . 18.49
2.29 19.10 13.02
8.57
13404.05 13414.99 13415.23 134w.05 13398.25 13415.68 13398.90 13416.33 13410. lb 13405*52
12," 19.01
f:Z 19.46
2.68 20.11 13.94
9.30
9.17 lWOb.12 4.72 13401.48 3.15 13400.42
10.32 13407.25 4.31 13401.00
10.88 13407.84 2.01 133w. 7 1
-0.34 1339b.22 1.91 13398.60
-0.44 133%. 12
9.90 5.26 4.20
Il.03 4.18
ll.b2 2.49
f:E -0.10
15136. lb 15748.73 15148.43 15738.36 15729.56 15148.53 15130.29 15149.26
:3;:z; .
15738.34 15733.24 15731.89 15139.41 15732.53 15140.05 15130.25 15727.45 15730.13 15721.33
9.82 22.39 22.10 12.02
3.22 22.19
3.95 22.92 16.52 11.41
12.00 6.90 5.95
13.01 6-20
13.12 3.91 1.11 3-79 0.99
12536.91 -1.41 12540.09 1.71 12531.00 -1.38 12540.12 1.14 12806.29 59.34 1280 1.58 60.62 12810.13 63.11
13395.01 13398.37 13395.10 13398.40 y;.;;
. 13691.71
-1.15 15126.01 -0.26 2.15 15129.80 3.46
-1.12 15?26* 11 -0.23 2.18 15129.83 3.49
62.37 16086.96 10.81 63. bl 16088.28 72.20 66.36 16091.32 75.24
NAOIUM 2=88
ENERGY SHIFT
15253.44 15258.71 5?32’ . 15270.14 39.56 152b1.78 30.59 15273.81 42.63 15255.b)l 24.63 1523b.51 5.33 15231.59 6.40 15236.32 5.14 15242.94 11.76
:f;X:% . o-2 . 15233.31 2.19 15235.35 4.16 15238.W 1.3b lY36.IJ 4.94 lM39.32 8.14 15235.14 4.56 15223.11 -8.07 15243.1b 12.57
15233.41 2.22 15238.97 1.18 15228.82 -2.51 15238.91 1.18 15231.13 0.54 15L34.58 3.39 15231.10 5.91 15u5.25 4.07 A5231.18 6.59 15133.49 2.31
A5222.04 -9.15 15231.69 0.51 15226.57 -4.62 15231.56 0.31 15226.43 -4.75 IS;L34.61 3.43 15225.54 -5.64 15228.96 -2.23 15231.21 0.03 15228.99 -2.19
152SLL5 0.06 15226.31 -4.88 11339.85 11.18 11330.97 b8.30 11344.4b 81.79 17d80.01 111.35 LldL9.39 b6.12 11327.51 64.85 17330.99 68.32 llr)W.lb 72.09
17334.40 11.13 173dO.17 75.51 17351.31 94.10 1r354.10 93.44 i7335.01 72.34 11333.15 11.08 17338.06 15.40 LIs40.00 71.33 17341.13 78.47 17343.01 80.40
17213.89 11.23 17287.64 24.87 112~6.84 24.11 17116.21 13.54 112bb.74 4.01 L?28b.b4 23.97 11267.52 4.85 17ZB7.42
:t% i7280.8Y . 17275.49 12.82
1 IZlb.Q9 13.42 11214.?0 8.03 37db9.15 6.48 11211.08 14.42 11219.83 1.16 ilL??.?b 15.09 112bl.54 4.81 17264.5b l.lI9 lIPb7.41 4.74 172b4.42 1 .lS
It263.04 0.37 17207.01 4.34 11263.07 0.40 1 lZb1 .Ok 4.38 Ll612.16 16.22 1T613.49 77.56 17blb.77 80.83
TRAhSIlION EiiERGY
12n2 0 - U2N3 2 L2It2 1 - IUN3 1 L2N2 1 - M2N3 2 L2n3 1 - 113N3 1 L2H3 1 - K4N3 2 L2W3 I - M3N3 3 ~2~3 2 - ~3~3 0 L2H3 2 - 113N3 1 L2M3 2 - 113N3 2 L2W3 2 - M3N3 3
L2N4 1 - n4y2 1 L2W4 1 - MN3 2 L2II4 1 - I4N3 3 L2H4 2 - M4N3 0 L2II4 2 - MN3 1 L2M4 2 - M4N3 2 L2M4 2 - ll4N3 3 LZW5 2 - M5N3 1 L2U5 2 - llSN3 2 L215 2 - ll5N3 3
L2M5 2 - tI5N3 4 L2115 3 - MSN3 1 L2M5 3 - ll5N3 2 L2115 3 - ll5N3 3 LUl5 3 - ((5N3 4 L2Nl 0 - HlN3 2 L2Nl 1 - NlN3 1 L2Nl 1 - NlN3 2 L2NZ 0 - hZN3 2 L2N2 1 - N2N3 1
L2N2 1 - N2N3 2 L2N3 1 - FUN3 2 L2N3 2 - N3N3 0 L2N3 2 - MN3 2 L2N4 1 - h+W 1 L2N4 1 - N4N3 2 L2N4 1 - N4h3 3 L2N4 2 - N4M 0 L2N4 2 - h4N3 1 L2N4 2 - N4N3 2
LZN4 2 - N4N3 3 L2N5 2 - N5N3 1 L2N5 2 - NW3 2 L2h5 2 - N5N3 3 L2N5 2 - N5N3 4 L2N5 3 - NSN3 1 L2N5 3 - N5N3 2 L2N5 3 - N5N3 3 L2N5 3 - N5N3 4 L2Nb 2 - h&N3 1
12840.54 93.61 12800.22 53.26 12799.21 52.25 a2&10=44 43.59 12803.70 54.74 12810.54 63.59 12198.28 51.32 12813.44 46.48 12&04.60 59.64 12813.44 66.48
12826.10 79.14 13707.83 82.42 16107.23 91.15 12&2&.74 81.76 13710.58 85.17 16110.26 94.18 12&25.7& 73.03 13707.50 82.09 16106.87 90.79 12804.39 57.43 13685.54 60.14 16083.62 67.54 12806.03 59.07 13687.25 61.84 16065.49 69.41 12008.67 61.71 13690.00 64.59 16088.52 12.44 12&05.71 58.75 136&6.92 61.51 16085.13 69.05 12809.00 62.04 136119.88 b4.47 16087.06 70.98 12814.06 67.10 13695. lb 69.75 16092.88 76.80 12813.80 66.84 13694.89 69.48 16092.59 76.50
12813.83 12611.65 12816.91 12816.65
::t:z: . 12750.% 12767.77 12762.19 12758.37
12753.78 12757.01
:f::% . 12155.79 12760.11
::;53':: . 12751.94 12756.26
12751.80 4.84 13630.86 5.46 16023.34 7.26 12745.28 -1.68 13624.04 -1.37 16015.68 -0.41 12758.93 11.97 13638.22 12.81 16031.21 15.13 12746.96 2.00 13627.&b 2.45 16019.90 3.82 12765.02 18.07 13644.55 19.14 16038.13 22.04 12745.&4 -1.11 13624.62 -0.79 16016.32 0.24 12759.49 12.53 13638.80 13.39 16031.86 15.78 12749.52 2.56 13628.45 3.04 16020.54 4.46 12765.58 18.63 13645.13 19.72 16038.77 22.69 12746.10 -0.78 13625.04 -0.36 1bOlb.98 0.90
L2Wb 2 - NbN3 2 L2Nb 2 - MN3 3 L2Nb 2 - 16113 4 L2Nb 3 - N6N3 1 L2Nb 3 - NbN3 2 LtNb 3 - N6N3 3 L2Nb 3 - N6N3 4 ~2~7 3 - ~7~3 2 L2N7 3 - N7N3 3 L2N7 3 - h7N3 4
LWl 3 - hlN3 5 Lthf 4 - N7N3 2 L2N1 4 - N7N3 3 L2h7 4 - N7N3 4 L2N7 4 - N7N3 5 L2Wl 0 - MN4 1 L2lll 1 - MN4 1 12X1 1 - ilN4 2 L2R2 0 - RLN4 1 L2M2 1 - WN4 1
L2M2 1 - M2N4 2 L2113 1 - M3N4 0 L2M3 1 - H3N4 1 LPU3 1 - R3Nk 2 L2lt3 2 - 1(3N4 1 L2M3 2 - N3N4 2 L2113 2 - IuN4 3 L2I14 1 - ll4N4 0 L2114 1 - MN4 1 Ltll4 1 - MN6 2
L2M4 2 - MN4 1 L2114 2 - WN4 2 LW4 2 - MN4 3 L2W5 2 - MN4 1 LZiiS 2 - M5N4 2 LZIIS 2 - M5N4 3 LZ115 3 - n5N4 2
F. PARFNTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,sFt, soHg, =At, and &Za (in eV) See page 387 for Explanation of Tables
PLA7XNlJH LI78
SHIFT
MERCURY 2.80 ASlAT INE z-85
ENER6Y SHl FT ENERGY SHIF7
13123.79 13681.46 13610.41 13691.75 13684.59 13691.75
:;tk” t; m&7: 58 1369k. 75
22 55:oo 66.34 59.18 66.34 53.51 69.34 62.17 b9.34
16127.68 111.60 16079.99 63.91 16078.82 62.74 16089.94 73.86 16081.92 65.84 16089.94 73.86 16075.62 59.54 16093.19 77.11 16085.18 69.10 16093.19 77.11
66.87 13694.92 69.51 64.89 13692.79 67.38 49.95 13698.06 72.65 69.69 13697.19 72.38 69.72 lM97.82 72.41 19.97 13646.58 21.17
4.00 13630.04 4.63 20.82 13647.47 22.06 15.23 13641.90 lb.49 11.41 13637.72 12.31
16092.62 16090.08 16095.90
:66z*f: 16040: 59 16022.62 lbO+l.bO 16036.17 16030.96
76.54 74.00 79.&2 79.52 79.56 24.51
6.54 25.51 20.09 14.88
6.82 13632.97 ?. 56 16025.80 9.72 10.05 13636.20 10.79 16028.98 12.90
1.58 13627.42 2.02 16019.42 3.34 10.67 1363b. 85 11.44 16029.71 13.63
8.83 13635.06 9.65 16028.03 11.95 13.16 13639.55 14.14 16032.96 lb.08
8.69 13634.91 9.50 16027.86 11.78 6.80 13632.90 7.49 16025.56 9.48 4.98 13631.01 5.60 16023.52 7.44 9.30 13635.51 10.10 16028.M 12.36
12748.01 1.06 13626.96 1.57 16019.18 3.10 12751.41 4.45 13630.55 5.14 16023.15 7.07 12746.09 -0.87 13624.95 -0.46 16016.89 0.81 12146.08 -0.87 13624.94 -0.47 16016.86 0.77 12747.92 0.96 13626.88 1.47 16019.06 2.98 12751.31 4.36 13630.45 5.04 16023.03 6.94 12745.99 -0.97 13624.84 -0.56 16016.77 0.69 12742.30 -4.65 13620.94 -4.47 16012.33 -3.75 12749.73 2.77 13628.75 3.34 16021.05 4.97 12747.97 1.02 13626.92 1.51 16019.05 2.97
12750.12 3.16 13629.77 4.36 12742.33 -4.63 13620.97 -4.44 12749.75 2.80 13628.78 3.37 12748.00 1.04 13626.95 1.54 12150.74 3.79 13629.80 4.39 12995.56 58.61 13&87.33 61.52 12999.39 62.45 13891.32 65.50 129911.75 61.81 13090.64 64.83 13030.25 93.31 13923.79 97.91 12983.90 51.95 13880.40 54.59
16022.12 16012.36 16021.08 16019.0&
E:f’ :2’ 16311: 19 16316.43 16354.05 16305.18
6.04 -3.72
5.00 3.00 6.07
69.64 74.00 73.25
110.86 61.99
12990.69 12993.67 12995.97 12991.86 12998.86 13001.75 12993.59
:3?2”2:.‘; 13013:40
53.75 13882.30 56.48 56.93 13805.10 59.29 59.02 13887.30 61.48 61.92 13890.33 64.52 61.92 13090.29 64.46 64.81 13893.33 67.51 61.64 13MO.01 64.19 68.29 13096.72 10.91 84.58 13913.85 88.04 76.46 13905.30 79.49
64.13 65.75 66.19 71.59 71.44 74.84 71.12 77.89 97.19 87.53
13001.45 64.51 13893.27 67.46 12993.33 56.39 13884.72 511.91 13001.45 64.51 13893.27 67.4b 13000.69 63.75 13991.96 66.14 13003.13 66.18 13094.52 68.70 13005.24 68.30 138%.74 70.92 13005.98 69.04 13897.42 71.61
16307.32 16308.94 16311.38 16314.78
:93:t*“of 16314:31 16321.08
:%33”0*7: .
16316.64 16308.98 16318.64
75.45 65.79 75.45
16315.70 16318.57 16321.06 _ _ _ _ _ _ lb3Z1.59
72.51 15.38 77.87 78.40
419
RIO1 UH t=m
ENERGY SHlFI
17715.99 120.05 17664.15 68.81 17bb3.49 67.56 17674.30 70.36 llbb5.75 69.01 17674.30 78.36 17659.05 63.11 17b77.71 81.71 17bb9. Al 73.23 17b77.71 81.77
17692.26 96.32 17695.45 99.52 17691.81 95.93 17b67.93 71.99 17669.90 73.97 1~673.10 77.16 17669.52 13.50 17bl0.68 74.74 17674.04 80.90 17b76.53 00.59
17616.56 80.62 17b73.75 77.61 17679.91 83.97 17679.60 83.66 17679.b3 83.69 17b22.69 26. lb 17603.87 7.93 17623.77 21.63 17618.51 22.51 llbl2.58 16.64
17bOl.LB 11.24 17610.27 14.33 17600.23 4.30 17b11.05 15.ii 17609.45 13.51 17614.63 10.69 17609.2b 13.32 I7blrb.79 10.85 17bOk.b5 6.72 i lb09.64 13.90
llb04.46 8.53 17596.26 0.32 ItbLL.bL 16.68 17bOO.72 4.78 17619.88 23.94 17596.93 1.00 lIblB.P9 17.35 17601.39 5.46 i7bio.55 24.62 17597.74 1.80
1~600.10 4.16 17604.30 0.36 17597.66 1.72 17597.60 1.66 17599.96 4.03 mo4.16 &ii 17591.53 1.59 11592.76 -3.17 17602.01 6.07 11599.93 3.99
l?bOJ.lO 7. lb A7592.80 -3.14 L7bU2.04 6.11 I lY99.96 4.02 17bU3.13 7.20 17914.36 74.72 179113.96 79.32 IIYL&.lb 70.52 llY58.73 119.09 17906.23 66.59
lI908.5J 68.89 17909.20 69.56 17911.79 72.15 11915.42 75.78 1?915.21 75.57 17916.83 79.19 17914.86 75.22 17921.60 81.96 17942.25 102.61 17931.90 92.26
17919.69 so.25 17909.54 69 -90 17Yl9.89 80.25 17915.81 76.17 179161.88 79.24 17911.53 81.89 17921.95 82.31
420
LZW 3 - MN4 3 L2)II 3 - nsN4 4 LZNl 0 - NlN4 I L2Nl 1 - NlN4 1 L2Ni 1 - NM42 L2N2 0 - Nzum 1 L2N2 1 -N2Wl LZN2 1 - N2N4 2 LZN3 1 - u3n4 0 L2N3 1 -h3u41
L2N3 I - N3N4 2 L2N3 2 - MU4 1 LZN3 2 - N3W 2 LZN3 2 - NSN4 3 LZN4 1 -mu40 L2n4 I- MN4 2 L2N4 2 - WW 2 LZNS 2 - USN4 1 LZN5 2 - N5N4 2 LW5 2 - NW4 3
LZNS 3 - NSN4 2 LZNS 3 - n5n4 3 L2M 3 - NW4 4 L2n6 2 - MN4 1 LZN6 2 - tlM4 2 LZNL 2 - NbU4 3 LZN6 3 -MN42 L2Nb 3 - hbN4 3 L2N6 3 -N6w4 L2Nl 3 - NlW 2
LZN7 3 - NlN4 3 L2N73-Uln44 L2N7 4 - N7N4 3 L2N7 4 - Nl?U 4 L2Nl 4 - NlU4 5 LrnlO - NlMbZ LZMl 1 - Ml% 2 LWl l- MlN6 3 LZMZ 0 -tewz LZMZ 1 -luNbz
LPW2 1 - MZN6 3 L21(3 1 - U3U6 I LW3 1 - M3nb 2
L2u3 1 L213 2 Ii% : Lu13 2 - M3Nb 2 L2113 2 - M3N6 3 L2113 2 - MfN6 4 LZN4 1 -N4N61 L2W4 1 - M4N6 2
LZU4 1 - mwb 3 LU14 2 - MN6 1 ~2114 2 - ~w)ub 2 LZI14 2 - MN4 3 LZN4 2 - R4N6 4 L2)tS 2 - Msub 0 LZMS 2 - M5m 1 LuI5 2 - umb 2
‘Lf$ f -Mm63 -NW64
LZM5 3 - Mmb 1 LZWS 3 - us% 2 LZRS 3 - MSub 3 LZMS 3 - USN6 4 L2nS 3 - MSnb 5 LZNI 0 - NlN4 2 L2Nl 1 - NW6 2 L2Nll- UN6 3 LtN2 0 - U2N6 2 L2h2 1 -IIzwbz
LZNZ l- N2wL 3 LPN3 1 - N3W 1 LZN3 1 -u3N62 L2N3 1 - WNI 3 LZW3 2 - WNb 1 L2N3 2 - Muw6 2 LZW3 2 - N3U6 3 LZN3 2 - rrJN6 4 L2N4 1 - N4N6 1 L2N4 l- N4w 2
L2N4 1 - WN6 3 L2N4 2 'WIN61 L2N4 2 -&4nb2 LZN4 2 - m m 3 Lzn* 2 -mMb4 L2NS 2 - NW6 0 LZNS 2 -NsWl
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,sPt, mHg, =At, and @Ra (in eV) See page 387 for Explanation of Tables
PLATINIJM
ENERGY
L-78 llERCURY Z-80 ASfAllNE
SHIFT ENERGY WI F? ENERGY SliIF7
1300(1.09 13004.49 12950.29 yi>z
12947:42 12939.00
:fz*z . 12944.62
71.15 61.55 13.35 14.20
9.75 10.47
1zg:E 9.50 1.67
13699.b4 13895.85 13a4o.12 13841.01 13e3b.30 13037.31 i3(128.36 13845.17 13836.01 13a34.12
16324.08 80.89 16319.03 76.64 16260.21 17*02 16261.21 18.02 16256.10 12.91 lb257.bU 14.49 16247.31 4.12 16265.12 22.63 16255.36 12.17 16253.32 10.13
12946.94 1294S.24 12949.56 1294s.10 12940.05 12940.76 12944.91 12942.43 i2943.90 12947.60
12.00 8.29
12.62 8.15 3.11
11.82 7.96 5.40
13:c
13836.62 13(134.?7 13839.27 13634.62 13029.47 13638.55 13634.51 13831.87 13833.40 13837.26
73.83 70.04 14.31 15.20 iO.% 11.50
2.57 19.36
'x-:: .
12.80
1z 8.81
1'2:z 8.70 6.06 7.39
11.45
lb258.24 15.05 lb2S4.o5 10.66 lb258.97 15.78 162S33.87 10.68 16248.43 5.25 16258.47 15.28 16253.96 10.77 1625o.86 1.61 16252.15 9.36 162Sb.60 13.61
12944.46 y,“.g
.
:f:iif*T: 12934:61 12942.72 12934.52 12947.65 12935.55
7.52 11.22
5.bZ -6.18
5.07 -2.33
5.17
;0’3: -1:40
13633.99 8.18 16253.20 10.01 i3837.% 12.o3 lb257.45 14.26 13832.01 6.20 16251.01 7.62 13819.75 -6.06 16237.63 -5.56 13832.42 6.61 16251.81 8.62 13023.84 -1.97 16242.34 -0.85 13032.32 6.50 16251.66 8-50 13823.74 -2.07 lb242.22 -0.97 i3031.40 11.66 16257.35 14.16 13624. lb -1.Ob 16243.16 -0.03
12938.43 12941.02 12938.46 12541.04 12935.66 13259.52 13263.36
:,‘ft:-:; 13252:51
13255.40 13250.05 13260.19 13262.90 13260.94 13263.09 13265.80 13261.51
:zX:% .
13279.74 13256.31 13263.12 13259.66 13265.16 13263.M i3264.29 13267.10 13260.25 13269.17
1.49 13827.60 4.07 13830.53 1.51 13827.63 4.09 13830.55
-1.29 13624.87 60.98 14166.82 64.81 14172.80 b3.53 14171.40 95.32 14204.85 53.97 14161.47
::z 2.01 4.74
-0.94 63.62
z-f: 99165 56.27
lb246.60 3.41 16249.67 6.U 16246.63 3.44 16249.70 6.51 16243.29 0.10 lbb39.80 71.15 16644.17 75.52 16642.51 73.85 16680.44 111.79 16631.58 62.92
56.65 59*50 61.65 64.36 62.39 64.54 67.25 62.96 77.83 81.64
59.39 bL.33 63.01 6b.74 64.52 b6.81 b9.73 65.11
3%
81.19 57.76 b4.57 61.12 66.61 65.31 65.74 68.56 69.70 70.62
14164.59 14166.72 14169.01 14171.93 14169.72 14172.00 14174.93 14170.30
:x3% .
i41W9.16 14164.98 14172.37 14168.58 14174.61 14172.47 14172.92 14115.96 14177.18 14178.18
83.W 59.79 bf. 17 b3.39 69.41 67.27 67.72 70-76 71.99 12-98
16635.20 16635.87 16638.49 16641.95 16639.12 16641.75 16645.21 16639.75
:::z*l': .
16660.10 16634.17 16642.98 16638.36 16b45.73 16641.28 16441.76 16645.31 16646.79 16647.98
13267.14 66ebO 14115. a2 70.63 13269.96 71.41 14178.87 73.67 13271.10 72.55 14160.09 14.a9 13272.02 13.47 141U.08 75.09 132b8.31 69.7b 14177.01) 71.88 13210.38 11.83 14117.70 12ISO 13211.23 12.69 141u.59 13.39 13200.88 10.33 14116.10 10.91 13213.44 14.69 14121.03 15.83 13205.03 6.48 14112.09 6.90
13210.66 12.12 i411a.04 13206.11 7.57 14113.14 132t7.95 9.40 14115.08 13211.34 12.80 14116.65 13206.73 8.19 14113.79 13206.57 10.02 14115.73 13211.% 13.42 14119.30 13206.64 8.09 14113.70 13201.87 3.33 14108.711 13213.92 15.37 14121.45
12.24 7.95
1f:Z
1::2 14.10
8.50 3.511
16.21
Ez*3f . 1b449.81 1665i.00 16646.26 16563.18 16584.18 lb56l.te
:t:::' 2 .
lase3.66 Lb577.64 16580.05 165e4.01 165?8*57 16500.78 16564.74 16578.49 16573.21 lb587.39
13205.72 7.17 14112.87 7.66 L6577.92 13190.02 -0.53 14104.74 -0.46 lbS66.70 13210.o6 il.52 14117.41 12.22 16582.81 13201.86 3.32 14108.13 3.64 16573.41 132iS.M) 16.46 14122.57 17.37 16588.54 13203.52 4.97 14110.45 5.26 Lb574.66 13203A6 4.51 14109.99 4.79 1b574.41
2185
66.62 b7.22 69.64 73.30 70.47 73.09 76.55 71.10 87.26 96.07
91.44 65.52 14.33 69.70 77.00 72.62 73.11 76.12 78.14 79.33
76.13 79.73 81.16 82.34 77.61 14.53 15.53 12.73 l&b7
8.30
15.00 9.19
11.40 15.36
9.92 12.12 lb.09
9.83 4.56
18.74
9.27
1I:E 4.75
19.68 6.23 5.7b
RAOI UI( L-88
ENERGY SHIFT
11924.60 84.97 i79LOdM 80.43 17058.52 16.88 11059.59 19.95 17US4.20 14.56 11056.2A 16.59 11arr.oo 116b4.4b 17653.16 11151.02
I?bSb.ZL
5.26
:3*5”: 11:3a
16.57 17651.80 12.16 176Jb.99 17.3s ll(L5A.61 il.97 11845.99 6.35 I lb56.61 16.97 Ar65b.02 12.1s l7648.4l 8.77 1 la50.20 lo.56 17654.69 15.05
I l850.Ud 11.24 i7d55.37 is.73 1 U40.5b B.92 llti34.53 -5.11 17849.57 9.93 I lb39.60 -0.04 I 7349 -44 9.80 17639.41 l7te5.39 ;z-:; 17(140.3* 0:70
11044.02 4.38 17847.2% 7.b4 i7(144*05 4.41 ;;,“m,‘.g . O.B4 7.66
LdZ69.84 75.91 10214.45 80.51 Ir)272 .b3 78.70 id3A3.55 119.61 10261.05 67.12
10265.OiI 11.14 lU264.5b 70.63 182b7.36 73.45 M271.1b 77.22 1azb7.93 74 -04 LCUlU.00 16.06 16274.51 00.64 ld260.63 74.69 ir2ci.27 91.34 L(1294.92 100.99
16289.W 9S.(L6 liM62.92 66.96 IddlZ.51 76.64 lUb7.+4 13.51 ia215.62 61.69 L02bO.b4 15.70 idZIO=L5 lb.21 10274.09 80.15 h&275=63 61.69 iclZ16.93 03.00
18273.22 79.28 18271.16 83.22 1U21U.10 64.76 u2ao.oU 66.07 id274.63 80.89 16209.92 15.90 ia210.99 il.06 1u20u.01 14.07 Asulk. 20.71 18251.3L 9.3&
lll2 10.46 16.52 16244.06 10.12 16LOb.42 12.49 16210.62 lb.68 ltUO4.04 10.90 I~LOl.20 13.2b 16211.40 17.46 A8204elb 10.83 18199.21 5.33 18214.32 20.38
10201.34 10.41 Idl94.4@ 0.54 u209.53 is.59 aa199.55 5.62 lML5.4d 21.54 ic)2OO~c)9 6.96 18200.43 b.50
TRANSITION ENERGY SHIFT ENERGY WI FT ENERGY
LZNS 2 - NSN6 2 LtN5 2 - N5N6 3 LZN5 2 - N5Nb 4 LZNS 3 - NSN6 1 L2N5 3 - NSW 2 L2N: 3 - N5N6 3 ~2N5 3 - NW6 4 L2N5 3 - NSN6 5 L2N6 2 - NW6 0 L2Nb 2 - WN6 2
L2N6 2 - N4N6 4 L2N6 3 - NbN6 2 L2N6 3 - MN6 4 L2N7 3 - N7N6 1 L2Nl 3 - h7N6 2 L2N7 3 - N7N6 3 L2N7 3 - NlNb 4 L2Nl 3 - N-IN6 5 L2Nl 4 - N7N6 2 L2N7 4 - N7Nb 3
L2N7 4 - N7Nb 4 L2N7 4 - N7N6 5 L2Nl 4 - NlN6 6 L3111 I - NlNl 0 L3n2 1 - N2n1 0 L3n2 1 - n2Ul I L3W2 2 - &?nl 1 L3113 0 - n3n1 1 L3M3 1 - 113111 1 L3n3 1 - n3n1 2
13206.91 13208.03 13209.46 13203.62 13207.47 13208.59 13210.02 13204.96 13192.34 13199.112
8.36 9.49
10.91 5.07 8.92
10.05
‘x: . -6.21
1.21
14114.03 14115.22 14116.13 14110.57 14114.62 14115.81 14111.31 14111.91 1409b.72 1410b.74
1::ii 11.53
5.37 9.42
10.61 12.11
6.10 -6-47
1.54
16578.94 10.29 16500.29 11.63 16501.97 13.32 16515.0b 6.41 16519.59 10.93 16580.93 12.28 16582.62 13.96 16576.60 7.95 16561.71 -6.89 16511.08 2.42
13202.76 4.22 141b9.89 4.69 13 199.72 1.11 14106.63 1.44 13202.67 4.12 14109.78 4.59 13195.86 -2.69 14102.48 -2.11 13197.b8 -0.67 14104~ 64 -0.55 13201.38 2.84 14108.39 3.20 13201.61 3.06 14108.63 3.44 13202.19 4.34 14110.00 4.61 13197.90 -0.64 14104.67 -0.52 13201.41 2.eb 14108.42 3.22
16514.73 16570.95 16514.60
:82%:X 16572195 16513.22 16514.01 16540.63 16572.98
:Ex: . 13197.37
8282.24 8311.09 8292.25 8295.30 8301.03 8255.41 8292.93
3.09 4.36
-1.18 27.22
Xt*;; 40:28 46.01
0.39 37.91
14108.66 14110.03 14104.10
8737.10 8167.00 0747.52 8150.69 8756.33 9709.07 0741.82
3.46
-::z 28.33 58.23 30.75 41.92 47.5b
0.30 39.05
16573.25 4.60 16514.84 6.19 16567.96 -0.10
9912.59 31.52 9945.17 64.10 9924.Ob 42.99 9921.55 4b.40 9932.63 51.56 9081.10 0.11 9923.04 41.91
L3W3 2 - 113111 1 L3113 2 -‘N3Hl 2 L3M3 3 - n3n1 2 L3n4 0 - n4n1 1 L3114 1 - WI*1 1 L3114 1 - n4n1 2 L3M4 2 - 14111 1 L314 2 - MM1 2 L3U4 3 - 14111 2 L3N5 1 - n5n1 2
L3n5 2 - n5n1 2 L3)15 2 - n5nL 3 L3115 3 - nrn1 2 L3M5 3 - n5n1 3 L3M5 4 - W5Wl 3 L3Nl 1 - 11111 0 L3Nl 1 - Nlnl 1 t;)lN: : - - NlNA N2Ul 0 1
L3N2 1 - N2nl 1
L3N2 2 - N2nl 1 L3N3 0 - h3nl 1 L3N3 1 - N3nl 1 L3N3 1 - KM1 2 L3N3 2 - N3nl 1 L3N3 2 - NW1 2 L3N3 3 - N3n12 L3N4 0 - h4nl I L3NC 1 - NW1 1 LBN4 1 - h4nl 2
L3N4 2 - h4nl 1 L3N4 2 - N4n1 2 L3N4 3 - N4nl 2 L3N5 1 - NSnl 2 L3N5 2 - N5nl 2 L3N5 2 - Mnl 3 L3N5 3 - N5nl 2 L3N5 3 - N5nl 3 L3N5 4 - N5nl 3 L3N6 1 - N6n12
LON6 2 - h6nl 2 L3N6 2 - NW1 3 L3N6 3 - N6Nl 2 L3hb 3 - NW1 3 L3N6 4 - hbnl 3 L3N7 2 - Nlnl 3 L3N7 3 - h7Hl 3 L3N7 3 - Nlnl 4 ::i: t - - lv7n1 Nlnl 4 3
L3N7 5 - h7cll 4 L3l41 1 - n1n2 1 L31(1 2 - Ml&? 0 L3Ml 2 - n1n2 1 L3n2 2 - &?I#2 0 L3113 0 - 113112 2 L3n3 1 - n342 1
F. PARJWTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,$t, soHg, sAt, and ,Ra (in eV)
PLATlMJn 2110 nEncuRY L-00 ASTATINE 2-85
WI&
6.01 2.30 5.95
-2.55 -0.05
4.29 4.56 6.16
-0.02 4.32
8281.33 831b.b4 8292.93 0300.99
:‘,“9”,*:: 0291:10 0282.26
::z:-:: .
8274.39 0287.b4 8281.77 8301.22 0279.10 8253.60 0264.41 82b2.77 8260.54 0259.30
26.31 8735.94 21.17 9910.49 29.42 63.82 87 74. bb 65.91 9952.35 71.28 31*91 0741.02 39.05 9923.04 41.97 45.91 875b.33 41.56 9932.12 51.65 45.13 8156.08 41.31 9932.40 51.33 36.89 074b.92 38.15 9922.42 41.35 36.00 8144.06 31.29 9921.51 40.44 27.24 0136.90 28.13 9911-53 30.46 36*66 87#.60 37.91 9922.16 41.09 42.01 8752.11 43.34 9927.26 46.19
19.37 8728.60 19.83 9901 .a9 20.82 32.82 8142.54 33.71 9917.10 36.03 32.15 8142.46 33.69 9916.88 35.81 46.20 (1754.40 47.63 9932.09 51.02 24.60 013.12 25.34 9907.98 26.91 -1.34 8107.37 -1.40 9890.24 9.17
9.39 8118.61 9.b4 9902.84 21.71 7.75 0716.90 8.13 9883.70 2.63 5.52 11-l 14.50 5.01 9887.60 6.53 4.20 8113.28 4.51 9886.14 5.01
0259.95 4.93 8113.96 s.19 9886.91 0264.26 9.24 0118.45 9.68 9891.84 8254.93 -0.09 blob.b6 -0.11 9880.83 0257.49 2.47 8711.35 2.58 9083.87 8259.84 4.02 0113.80 5.03 9006.64 0262.39 7.31 8716.49 7.12 9609.60 8251.49 2.47 87 11.35 2.58 9863.07 8259.82 4.80 0713.85 5.08 9806.80 8259.10 4.68 8113.72 4.95 9886.65 8259.06 4.04 8113.05 4.20 9805.89
5.84 10.77
-zo’ 5:51 0.61 2.80 5.13 5.58 4.82
8257.88 2.86 8111.80 8257.24 2.22 0111.12 8259.04 4.02 6113.03 8260.14 5.72 8714.00 8256.49 1.47 0710.31 0257.40 2.38 8111.27 8258.90 3.88 8112.86 0259.01 4.19 87 13.82 8255.95 0.93 8109.73 0254.57 -0.45 0100.35
3.03 2.35 4.26 6.03 1.54 2.30 4.09 5.05
-::z
9884.46 3.39 9883.70 2.63 9885.88 4.81 9001.02 6.15 9882.13 1.64 9683 .a0 2.73 9005.63 4.56 9886.10 5.63 9802.05 0.98 9000.67 -0.40
0253.84 -1.18 0707.55 -1.22 9819.10 -1.37 8252.55 -2.41 87Ob.15 -2.62 9ere.04 -3.04 0253.36 -1.66 0701.02 -1.75 9879.06 -2.01 8252.0 7 -2.95 8105.62 -3.15 9er1.40 -3.b7 0252.90 -2.12 0704.53 -2.24 9078.50 -2.57 8252.04 -2.18 8706.40 -2.29 9170.42 -2.65 11251.91 -3.05 WOI. 52 -3.26 9811.21 -3.80 0253.63 -1.39 0701.32 -1.45 9879.41 -1.66 8251.15 -3.21 0105.27 -3.50 9816.90 -4.09 0253-41 -1.61 0107.07 -1.10 9819.13 -1.95
8254.01 -1.01 0107.73 -1.04 9819.90 -1.17 0568.25 34.65 9036.61 35.97 10241.47 39.66 8519.58 45.98 904b.29 41.65 10260.04 52.23 6560.74 27.14 9020.01 28.17 1023a.92 31.11 8561.16 21.55 9029.29 28-65 10239.56 31.75 8589.34 55.74 90511.22 57.50 10210.09 62.20 8554.01 20.40 9021.54 20- 90 10229.98 22.17
See page 387 for Explanation of Tables
421
RAOIUN Z=bb
ENERGY SHIFT
19205.24 11.30 Id206.Lb 12.74 1~00*41 14.53 ULOl. 11 1.18 10205.92 11.98 lbL07.35 13.42 1b209.15 15.21 18252-74 8.00 10186.94 -6.99 18191.ul 3.01
18200.95 1.02 ld196.01 2.94 l(UOO.bL 6.68 ld191.59 -2.34 lb194.3r) 0.36 lolYO.9Y 5.05 18199.28 5.34 10201.00 7.01 lr)l94.36 0.40 ldlQY.02 5.08
18199.31 5.37 1bL01.03 1.10 18193.59 -0.34 lOb+L.~O 33.35 10675.35 67.60 10b53.22 45.46 15656.91 49.16 10661.84 54.09 10607.ll2 0.01 10651.56 43.81
10630.64 30.89 L0682.30 14.63 10651.56 43.81 lW61.9S 54.22 106b1.61 53.06 10651.11 43.36 lbb50.16 42.41 10639.66 31.91 10b50.84 43.09 10656.03 48.20
10629.47 21.12 1~45.41 31.12 10645.21 37.45 10461.21 53.46 10635.bY 20.14 10406.45 -1.30 10bA9.94 12.18 IuQll.(IY 10.14 AGbA5.15 7.40 IotJlJ.61 5.85
LOb14.43 6.68 10019.60 11 .a4 10607-65 0.10 lo611.12 3.37 10614.04 6.29 IObl7.31 9.56 10611.12 3.31 10614.BZ 6.51 10614.14 6.39 10613.34 5.58
10611.7Y 4.03 10610.97 3.22 10613.62 5.57 10615.36 7.61 13609.89 2.13 1061l.OL 3.21 15613.02 5.26 IO6li.k 6.40 106OY. 14 1.39 10601.79 0.04
10006.72 -1.03 10604.90 -2.85 1ObOb.01 -1.75 lubO4.19 -3.56 A.3605.42 -2.34 10605.33 -2.42 10604.04 -3.71 LobO6.30 -1.38 10603.72 -4.03 10604.06 -1.69
IO606.91 -0.84 10998.45 41.02 1101A.56 54.92 199119.43 32.79 lW90.14 33.50 AlU21~89 65.25 10979.b3 23.00
422
TRAhSlllffl ENERSY SHIFT ENERGY SHIFT ENERGY SHIFT
LlM3 1 - mm2 2 L3Kl 2 - lwl2 1 L3113 2 - ml42 2
8343.72 10.12 8579.92 46.31 0569.b4 36.03 8534. a1 20.40 3343.72 10.12 0391.30 37.70 0536.54 22.94 8391.14 37.33 0546.09 13.20 8301.49 47.00
‘P%-:t . 9037.82 9021.34 9010.96 906%41
zs:z-:; . 90 14.23 903O. 13
10.32 10210.63 10.83 47.77 10239.29 31.47 37.18 10247.93 40.14 20.90 10229.98 22.1t 10.32 10218.63 10.83 39.77 10272.68 64.67 23.63 10233.14 23.33 39.31 10272.36 64.33 13.61 10222.25 14.44 49.49 10261.48 33.66
- llrnz 2 -Mm21
L3M4 1 - 114112 2 13114 2 - MU2 1 L3M4 2 - a4n2 2
L3114 3 - Ii4n2 1 L314 3 - n4n2 2 L3MS 1 - nsrtz 2 L3M5 1 - 1131)2 3 I3113 2 - n5M2 2 L3US 2 - MS&? 3 L31(3 3 - MM2 2 L3II5 3 - nsn2 3 iixs 4 - nsn2 2 L3W5 4 - 1(31u 3
L3Nl 1 - NM2 1 L3Nl 2 - NlH2 0 L3Nl 2 - hlM2 1 L3N2 1 - N2M 1 UN2 2 - WRZ 0 L3NZ 2 - N2U2 1 L3N3 0 - k3N2 2 L3W3 1 - N3Iu 1 LON3 1 - )r3li2 2 L3N3 2 - N312 I
L3N3 2 - h3W 2 L3N3 3 -WI421 LW3 3 - N31u 2 L3N4 0 - h4)12 2 L3N4 1 - MM2 1 L3N4 1 - h4n2 2 L3N4 2 - N4bl2 1 L3N4 2 - kiti 2 L3N4 3 - N1M2 1 L3N4 3 - N4@ 2
L3NS 1 - NM2 2 L3NS 1 - NSW 3 L3NS 2 - hSM2 2 L3N3 2 - kSM2 3 L3NS 3 - NSW 2 L3N5 3 - hS&? 3
:z t - hSn2 2 - NSMZ 3 - Nblu 2 - MM2 3
L3NC 2 - MN2 2 L3N6 2 - hbnz 3 L3NC 3 - wnr 2 L3Nb 3 - hbK? 3 L3Nb 4 -Nbn22 L3bb 4 -hbM23 i3N7 2 - N7M2 3 L3N7 2 - N7M2 4 L3N7 3 - N7112 3 L3N7 3 - h7H2 4
L3N7 4 - h7U2 3 UN7 4 - N7R2 4 L3Nf 5 - N7M2 3 L3N7 5 - N7M2 4 L3Ml 1 - n1ti3 1 i%u 1 - n1na 2 L3111 2 - Mm3 1 L3Wl 2 - *la3 2 L312 1 - WI83 1 L3W2 1 - M21u 2
ti:: f - - m2113 n2M3 2 1
I.3113 c - n3113 2 L31U 1 -a3102 LU13 2 - iwe 0 L3113 2 - ((3113 2 L3n3 3 - 113K# 2 L3M4 0 - n4n3 2 L3n4 l- Mm1 L3H4 1 -Mm32
L3m4 A - ti4N3 3 L3M 2 - Mm3 0 L3114 2 - Il*Iu 1 L3M 2 - MM3 2 L3)n4 2 - MN3 3 L3114 3 - I44113 1 L3U4 3 - MM3 2
F. PARENTE et al. LX-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,,J%, wHg, ,At, and ,&a (in eV) See page 387 for Explanation of Tables
PLATINUW z-70 NENCURY I=00
0336.31 8390.91 0502.30 0576.14 8539.60 0353.43 8372.90 0566.01 0531&b 0545.29
22.71 37.31 40.70 42.53 23.99 19.03
z-:1 17:as 11.69
9024.03 23.39 9059.91 39.27 9030.80 50. lb 9044.42 43.70 9027.30 26.66 9020.92 20.28 9041. lb 40.32 9034.77 34.13 POla.87 18.23 90 12.49 11.03
0530.14 4.34 9003.41 4.77 0530.02 4.42 9003.28 4.b4 8536.31 2.91 9003. to 3.06 0342.07 9.26 90 10.40 9.76 0531.62 -1.99 0990.37 -2.07 8343.32 9.91 9011.09 10.43 8343.48 9.88 9010.99 10.33 6535.1b 1.36 9002.26 l.b2 0534.13 0.33 9001.21 0.57 0540.06 6.46 9007.41 6.77
0339.05 0333.16
X%=:: 0536:79 0530.39 8534.97 1336.77 6536.78 0538.37
5.43 1.56 0.33 5.10 3.19 4.99 1.37 3.17 3.17 4.97
9oOb. 33 9002.26 9001.21 9006.04 9oO4.02
‘,“,g*:: . 9003.99 9001.01 9003.90
3.71 10214.13 6.34 1.62 10209.31 1.70 0.37 10208.34 0.33 3.41 10213.91 6.10 3.38 10211.62 3.81 3.28 10213.76 5.93 1.46 10209.43 1.62 3.33 10211.37 3.76 3.37 10211 .bO 3.79 3.26 10213.74 3.93
0539.07 0339.36 8333.62 0333.11 0530.03 0537.32 8534. II 8333.66
::~:% .
0530.58 0533.46 0330.10 Em’,.;,”
0533:01 8532.b4 0531.89 0531.77 8331.02
6.26 5.76 2.01 1.31 4.42 3.92 0.36 0.06
-2f8 .
-3.03 -0.13 -3.51 -0.62 -2 -61)
0.20 -0.97 -1.72 -1.84 -2.59
9007.23 6.61 9006.72 6.06 9002.76 2.12 9002.23 1.39 9oO5.31 4.67 9004.78 4.14 9001.23 0.39 9000.69 0.03 8998.23 -2.41 9001.3b 0.72
8997.43 -3.21 9000.33 -0.09 899b.90 -3.74 9oOO.02 -0.62 89W.01 -2.93 9000.93 0.29 09w. 67 -0.97 8998.8b -1.70 0990.71 -1.93 0997.89 -2.73
8531.54 0330.79 6532.15
i:,‘:-,‘f 097Q:Zt 0923.24 6962.76 0933.34 a943 .Ob
-2.06 9998.4b -2.18 -2.01 8997.65 -2.99 -1.46 8999.12 -1.32 -2.21 8998.31 -2.33 10.62 9431.97 19.39 36.14 949O. 72 58.33 11.11 9444.10 11.79
48-b) 9482.92 50.34 41.21 9475.33 42.96 30.93 94b4.71 32.38
8938.39 44.26 0940.11 33.98 0977.41 63.28 8931.79 17.66 0937.26 23.13 8957.71 43.38 8931.79 17.66 8960.02 46.69 8930.74 36.61 89bo.38 4b.43
8930.15 0943.2b 8941.O9 8530.93 0940.50 893O.31 8960.35
36.03 29.13
ft.:% . 26.38 36.39 46.22
9478.32 94b7.94 9497.86 9+50.60 945b.39 9477.47 9430. b0 940O.00 94 70. CO 94110.34
9469.79 94b2.39 9460.39 9470.33 9439.78 9470.17 9400.31
46.13 lO843.27 31.37 33.33 10833.94 40.O4 63.48 10863.05 71.13 18.22 10813.61 19.11 24.01 10020.23 26.35 43.08 10842.91 49.01 10.22 lOa13.61 19.71 48.41 10846.79 52.09 38.02 10033.37 41.67 48. lb 1084b.47 52.57
37.41 10834.91 41.01 30.20 10826.97 33.07 28.00 10624.68 30.78 38.14 10833.30 41.68 27.39 10824.02 30.12 37.70 10835.31 41.41 47.92 10846.2 1 32.31
ASTATINE
10232.89 10272.11 10261.33
:J~:-:l" lo229:oZ 10230.96 10244.01 10226.84 10219.90
10223.89 10206.30 10204.73
:8fe:; 10219:bO 10219.33
::;x: 10213:32
10213.21 10214.61 10210.12 10209.32 10213.02 10212.42 10208.37 10207.77
::t:3;
10204.00 10207.70
::;::-:: . 10204.34 10200.24 10206.74 10203.70 10203.39 10204.63
:x::z9 1Ozob:Oa 10203.11 10016.40 10838.26 10807.83 10849.71 10841.70 10030.43
1-3
23.07 64.30 33.52 4b.37 28.16 21.21 43.13 36.20 19.03 12.08
16.00 -1.31 -3.07 11.02 -2.39 11.79 11.34
1.70 0.33 1.31
7.40 6.79 2.31 1.71 3.21 4.61 0.36
-0.04
-Et .
-3.13 -0.03 -4.31 -0.67 -3.27
0.43 -1.07 -2.03 -2.22 -3.19
-2.31 -3.47 -1.74 -2.70 22.50 64.36 13.95 55.81 47.88 36.35
mA01uM 2-00
ENERGY SHIFT
10967.86 11.23 llO10.45 53.62 10446.68 42.04 1091Y.bA 23.00 10967.86 11.23 llO24=15 60.11 lOY03.05 2b.41 11024.30 67.73 10971.60 L4.96 11012.93 56.29
1098L. 78 26.l4 I1024.il bt.48 11012.58 33.94 11005.i6) 48.63 LO906:02 29.30 AU910.12 22.00 IIOUl.76 43.12 10994.46 37.82 109tb.44 19.80 13969.14 12.50
109bZ.lj 6.09 lOYb2.33 5.91 10960.68 4.03 iO960.90 12.26 10934.40 -2.16 IoYbY.IL 13.09 U969.32 12.69 1095b.83 2.19 10957.38 0.94 10965.02 8.30
109b3.71 7.13 10958.03 2.19 lOY57.5U O.Y4 10Y63.61 b.Y0 10961.14 4.50 IOY13.44 6.00 1u95b).ta 2.14 lJ961.07 4.44 lOYbA.12 4.48 10903.42 6.70
10964.96 8.32 10944.31 7.67 Aov39.4c) 2.04 lJY!BU.83 2.20 1096L.bl 5.97 AOYbi.90 3.33 iJY5t.00 o.Yb 10930.95 0.31 AOY54.13 -2.51 10958.15 1.31
10953.05 -3.59 lOY67.UI 0.44 10Y52.h -4.30 lOYIJb.36 -0.27 10Y53.36 -3.07 109~7.39 O.YS 10935.95 -0.68 AOY54.Yl -1.73 iOY54.66 -1.9r 10953.b2 -3.02
lOY54.33 -2.29 lUY53.30 -3.33 10~35.20 -1.43 10994.16 -2.40 lib80.56 24.2b lllLI.Il 68.00 11671.54 13.23 11713.2d 50.98 ~1707.14 50.04 llbY5.37 39.06
11tlo.64 54.53 11699.01 42.76 117.+1.06 74.75 11btt.Oj 20.73 lud4.23 27.92 11101.05 51.54 libt7.03 20.73 lAiiL.07 55.76 lllOO.34 44.04 ut11.71 55.40
llb9Y.b5 43.35 lIbYl.23 34.92 llb08.8Y 32.58 11700.25 43.95 11btiU.20 31.89 117OO.Od 43.77 11711.44 55.13
lR*hSIlIoN
L3M 3 - n*ru 3 L3)15 1 - tlSH3 1 L3115 1 - 115n3 2 L3MS 1 - MM3 3 13115 2 - Km3 1 iin5 2 - ltsn3 2 L3N5 2 - )15Ki 3 L3115 2 - 115113 4 L3Ki 3 - 115113 1 13li5 3 - 15113 2
L3115 3 - Mn3 3 L3M5 3 - 115m 4 L3M5 4 - 115113 2 L3I45 4 - MSM3 3 A3115 4 - fm3 4 L3Nl 1 - NlM3 1 L3Nl 1 - NM3 2 L3Nl 2 - NlM3 1 L3N1 2 - NM3 2 13X2 1 - h2M3 1
L3N2 1 - h2M3 2 L3N2 2 - N2n3 1 L3N2 2 - N2113 2 L3N3 a - N3113 2 L3N3 1 - N3M3 A L3N3 1 - N3W3 2 L3N3 1 - N3M3 3 L3N3 2 - N3113 0 L3N3 2 - N3M3 1 L3N3 2 - N3113 2
L3N3 2 - 113113 3 L3N3 3 - *3113 1 L3N3 3 - N3M3 2 L3N3 3 - N3M3 3 L3N4 a - NW3 2 L3N4 1 - NM3 1 L3N4 1 - N4n3 2 L3N4 1 - h4NJ 3 L3M 2 - NlH3 0 L3N4 2 - h4M3 1 L3N4 2 - N4N3 2 L3N4 2 - NM3 3 L3N4 3 - h4U3 1 L3N4 3 - N4n3 2 L3N4 3 - WN3 3 L3N5 1 - N5W I L3N5 1 - NW3 2 L3N5 1 - 151u 3 L3N5 2 - NSW3 1 L3N5 2 - N5M3 2
L3N5 2 - 115113 3 L3h5 2 - NM3 4 L3N5 3 - N5M3 1 L3N5 3 - 155113 2 L3N5 3 - N5113 3 L3N5 3 - N5*3 4 L3N5 4 - NSKl 2 L3?$5 4 - N5n3 3 L3N5 4 - N5M3 4 L3H6 1 - h6M3 1
L3N6 1 - hbM3 2 L3N6 1 - WM3 3 L3N6 2 - kbU3 1 LX 2 - WI43 2 L3N6 2 - hbM3 3 L3N6 2 - NM3 4 L3N6 3 - hbM3 1 L3N6 3 - NbM3 2 L3Nt 3 - N6W3 3 L3N6 3 - ~113 4
L3N6 4 - kbn3 2 t3wwt t - - kbn3 h6113 4 3
L3N7 2 - N7lU 2 L3N7 2 - k77113 3 L3N7 2 - N7M3 4 L3N7 3 - ma3 2 L3N7 3 - N7113 3 L3N7 3 - N7l43 4 L3N7 3 - N7IC4 5
L3N7 4 - N7w3 2 L3N7 4 - NT113 3 L3N7 4 - N71u 4 L3N7 4 - 117113 5 L3N7 5 - 117113 3 L3N7 5 - km3 4 L3N7 5 - N7CU 5
F. PARENTE et al. LX-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of&Y, soHg, =At, and ,Ra (in ev>
PLATINUII 217% MISCURV l-80 ASTAT INE Z=%S
ENERGY SHIFT ENERGY SHIFT ENERGY SliIFT
BS49.93 35.80 9469.56 8943.07 20.94 9462.35 8972.41 58.2% 9492.58 8953.42 39.30 9473.05 8920.36 6.24 9438.05 8949.70 35.57 9469.08 0930.72 16.59 9449.55 8960.98 46.05 rH00.60 8533.75 19.62 9452.71 0963.08 48.95 9402.94
37.17 29.91 60.19 40.66
3::z 17.16 48.29 20.32 50.55
10834.65 10826.20 10858.67 10837.76 10800.84
::11:;-3: 10%45:72 10815.83 10848.30
40.75 32.30 64.77 43.86
6.94 39.41 18.49 51.02 21.93 54.40
0944.10 29.97 9463.40 8974.36 60.23 9494.54 0941.56 27.43 9460.65 0922.50 0.45 9441.12 8952.84 38.71 9472.25 0916.81 2.68 9435.17 8919.83 5.70 9438.33 8915.18 1.05 9433.46 8918.20 4.07 9436.62 8918.54 4.41 9437.01
31.02 62.15 26.26
3x 2.76 5.94 1.07 4.23 4.43
10827.38 33.40 10860.71 66.81 10824.19 30.29 10803.27 9.37 10036.60 42.70 10807.66 13.76 10811.19 17.29 10788.51 -5.39 10792.05 -1.85 10799.03 5.13
8917.46 3.33 9435.08 3.49 10797.15 3.05 8919.19 5.06 9437.70 5.31 10799.80 5.90 8918.11 3.98 9436.56 4.17 10798.51 4.61 8921.25 7.12 9439.00 7.41 10802.02 8.12 8918.76 4.63 9437.1% 4.79 10799.01 5.11 8911.92 -2.21 9430.01 -2.37 10791.00 -2.90 0918.76 4.43 9437.18 4.79 10799.01 5.11 8908.51 -5.62 9426.49 -5.89 10787.25 -6.65 8923.66 9.53 9442.32 9.93 10804.82 10.92 8916.02 2.69 9435.16 2.77 10796.81 2.91
0923.66 9.53 9442.32 9.93 10804.82 10.92 0910.76 4.63 9437.1% 4.79 10199.01 5.11 0911.92 -2.21 9430.01 -2.37 10791.00 -2.90 0910.76 4.63 9437.18 4.79 10799.01 5.11 8920.15 6.02 9436.71 6.32 10800.92 7.02 8917.14 3.01 9435.55 3.16 10197.37 3.47 8920.03 5.90 9430.50 6.20 10800.77 b.07 0916.86 2.74 9435.26 2.87 10797.04 3.14 0913.22 -c-90 9431.43 -O.% 10792.74 -1.16 0915.32 1.19 9433.62 1.24 10795.10 1.2% 8918.21 4.00 9436.66 4.27 10798.50 4.4% 8915.05 0.92 9433.34 0.95 10794.05 0.95 8917.12 2.99 9435.53 3.14 10797.35 3.45 8920.01 5.88 9438.57 6.10 10800.75 09 16.85
6.85 2.72 9435.24 2.86 10197.03 3.13
8915.9% 1.85 9434.32 1.93 10795.94 2.04 8920.64 6.51 9439.22 6.83 10801.43 7.53 0920.99 6.06 9439.58 7.19 108Ol.eA 7.91 8911.73 -2.40 9429.83 -2.56 10790.85 -3.05 89 16.39 2.26 9434.72 2.34 10796.34 2.44
8916.74 0915.79 0914.14 8918.80 8919.15 8910.20 85 14.94
tt:z: . 8910.12
2.61 9435.0% 2.70 10196.72 2.82 1.66 9434.10 1.71 10795.65 1.75 0.01 9432.38 -0.01 10793.75 -0.15 4.67 9437.2% 4.09 10799.24 5.34 5.03 9437.63 5.25 10799.62 5.72 4.07 9436.65 4.2b 10798.55 4.65 0.81 9433.19 0.00 10794.59 0.69 1.16 9433.55 1.16 10794.9% 1.0% 0.21 9432.56 0.10 10793.91 0.01
-4.01 942%. 12 -4.21 10788.90 -5.00
8912.26 -1.86 9430.40 -1.98 10791.52 -2.3% 0914.97 0.85 9433.33 0.94 10794.98 1.08 8909.38 -4.75 9427.31 -5.0% 10787.93 -5.97 8911.53 -2.60 942% 60 -2.79 10790.55 -3.35 8914.24 0.11 9432.52 0.14 10794.01 0.11 8109.95 -4.18 9427.90 -4.49 10780.56 -5.34 89O0.90 -5.22 9426.78 -5.60 107%?.29 -6.61 0911.05 -3.0% 9429.07 -3.32 10789.92 -3.98 0913.76 -0.37 9432.00 -0.39 10793.38 -0.52 8909.47 -4.66 9427.37 -5.02 10787.92 -5.9%
8911.8% 0914.59 8910.30 8908.12 8913.60 8912.91 8907.24 8912.73 8912.04 8912.81
8907.02 8912.51 8911.82 8912.5% 0913.11 8912.42 8913.19
-2.25 0.46
-3.83 -b.Ol -0.53 -1.22 -b.88 -1.40
1:-s,’ .
-7.11 -1.62 -2.31 -1.55 -1.02 -1.71 -0.94
9429.98 -2.41 10791.01 -2.09 9432.91 0.52 10794.47 0.51 9420.2% -4.11 10789.02 -4.8% 9425.92 -6.41 1078b.ZI -7.b9 9431.85 -0.53 10793.24 -0.66 9431.0% -1.31 10792.24 -1.66 9424.96 -7.43 10785.05 -8.85 9430.89 -1.49 10792.08 -1.02 9430.12 -2.27 10791.08 -2.82 9431.01 -1.37 10192.32 -1.5%
9424.71 -7.67 9430.65 -1.74 9429.87 -2.52 943O. 77 -1.62 9431.31 -1.0% 9430.53 -1.06 9431.43 -0.96
10784.76
:x:G- t: 10792:03 10792.57 10791.57 10792.80
-9.14 -2.10 -3.10 -1.07 -1.33 -2.33 -1.10
See page 387 for Explanation of Tables
423
YAOIUM 2-88
ENERGY SHIFT
llb99.3U 43.08 11690.47 34.17 1112*.30 68.00 11702.54 46.24 Albb3.9l 7.61 Al697.74 41.44 LA675.98 19.68 11710.05 54.34 11679.69 23.34 11713.46 57.17
11691.72 35.42 AA721.39 70.00 11688.Lb 31.85 llb66.45 10.09 11701.07 44.76 Alb59.86 3.55 11663.63 7.32 lA657.Ul 1.51 11661.59 5.2% llbb2.19 5.89
11660.81 4.50 11063.OL 6.72 lr661.64 5.33 llb65.24 e.94 11662.04 5.14 llb53.50 -2.81 11662.04 5.74 Alb49.57 -6.74 lr466.2d 11.92 11659.69 3.3%
llb6%.2) 11.92 11662.04 5.74
11064.11 7.06 llb60.36 4.05 11663.99 7.6% 11660.02 3.71 Alb55.41 -0.90 A1058.00 1.69
AAbb1.65 5.32 llOb7.65 1.35 lAbbO.34 4.04 iibb3.Y7 7.66 llb60.00 3.69 1162%.&3 2.53 116b+.btJ 0.37 LLbb5.08 8.77 11453.36 -2.Y5 AAb59.20 2.90
11659.60 3.29 1LL58.48 2.17 llb56,4r, 0.1% 11662.33 6.03 11662.73 6.42 llbb1.61 5.30 11657.32 1.01 i1657.72 1.41 Alb56.00 0.29 llb51.30 -5.51 llb54.12 -2.19 llb57.09 1.59 11650.2L -6.0% 11653.04 -3.27 AA654.82 0.51 11650.87 -5.44 11b49.51 -6.80 11652.33 -3.9% 11bSb.11 -0.20 llb50.16 -6.15
A lb53.55 -2.75 11657.33 A.02 AA4SL.30 -4.92 llb40.30 -0.00 llb55.90 -0.33 11654.05 -1.46 llMI.OA -9.29 llb54.69 -1.61 11b53.56 -2.75 A1654.99 -1.31
11646.70 -9.61 11654.33 -1.93 Ilb53.24 -3.06 lA654.68 -1.63 11655.2> -1.0% 11654.10 -2.21 11655.53 -0.77
424
fRAhSITIoN EhEA6Y SHIFT ENERGY SW Fl ENERGI SHIFT
L3)11 1 - nrnr 1 L3111 1 - @IAM 2 L3JIl 2 - I/M 1 L3Nl 2 - Rln4 2 L3wz 1 - IUM 1 L3NP 1 - N2n4 2 L3M2 2 - N2N4 1 L3H2 2 - a2u4 2 L3#3 0 - M3a4 1 L3M3 1 -IuMo
L3W3 1 - IUM 1 L3N3 1 - N3M 2 L3N3 2 - mm4 1 L3N3 2 - N3M 2 L3M3 2 - MN4 3 L3rn3 3 - MfWI 2 L3)13 3 - w3w4 3 L3N4 1 -Ml440 L3N4 1 - N4M4 2 L3N4 2 - MN4 2
9397.71 9381.66 9390.20 9381.35
xi::-: 93110:54 9415.14 94LS.98 9372.52
34.65 21.80
:x*:04 14:43 49.03 17.4% 52.0% 52.92
9.46
9935.56 36.11 11347.65 40.2% 9926.40 26.96 11337.67 30.30 9927.76 28.32 11339.10 31.73 WI%. 60 19.16 11329.13 21.75 99 14.66 15.21 11324.9% 17.61 99S0.54 51.09 11364.20 56.83 9917.83 18.3% 11328.47 21.10 9953.71 54.26 11367.69 60.32 99S4.24 54.80 11367.05 59.6% 9909.1% 9.74 11317.90 10.52
9310.36 7.30 9906.9% 9300.19 11.13 9911.12 9396.27 33.21 9933.84 9406.11 43.05 9943.9% 9395.6% 32.62 9433.24 9300.19 17.13 99 17.12 9369.77 6.71 9906.37 9314.M 11.3% 9911.31 9398.60 35.54 W36i28 9388.95 21.89 9926.26
1::z 34.40 44.u 33.60 17.6%
6.93 11.87 36.84 26.82
11315.60 11326.50 11344.91 11355.81 11344.25
::;:: ;t . 11320.56 11347.55 11336.67
8.23 19.13 31.54 48.44 36.88 19.13 7.57
13.19 40.1% 29.29
L3114 3 -MM2 L3115 1 - 115114 1 LMS I - II%4 i LlMS 2 - WSICI 1 L3M5 2 - WM 2 L315 2 - nsw4 3 L3h5 3 - Mm4 2 L3115 3 - RSH 3 LUIS 3 - MSM 4 L3115 4 - WSM 3
L3W5 4 - m5w4 4 L3Nl 1 - klM 1 L3Nl 1 - NM4 2 L3N12 - 111114 1 UN12 - hlM4 2 LJN2 1 - N2N4 1 L3NZ 1 - h2N4 2 L3N2 2 - h2N6 1 L3k2 2 - h2M4 2 L3N3 0 - NM4 1 L3N3 1 - N3n4 0 L3N3 I- u3um 1 L3N3 1 - h3wI 2 L3N3 2 - NW4 1 L3h3 2 - rJwI 2 UN3 2 - t&3114 3 L3N3 3 - 63H4 2 L3N3 3 - N3%4 3 sit f - - N4H4 NW4 0 1
L3N4 1 - kM4 A L3N4 1 - WM 2 L3N4 2 - MN4 1 L3N4 2 - NM4 2 13112 2 - MM 3 L3N4 3 - NW4 2 L3&4 3 - N4l44 3 LulS l- N5N41 L3N3 1 - hSll4 2 L3N5 2 - NM4 1
L3N5 2 - Wti 2 UN5 2 - WN4 3 L3u5 3 - MN4 2 L3NS 3 - MN4 3 L3N5 3 - NW4 4 %w”,” f - - hSl)r NW44 3
L3NC I - Nbti 1 LL%:t : -wN42
-MN41
L3N6 2 - UbW 2 L3n6 2 - Mm 3 LlNb 3 - NbM 2 L3N6 3 - MN4 3 L3u63 -N6M4 L3N6 4 - WI4 3 L3N6 4 - WM 4 L3Nt 2 - NtM 2 2::; f - - HIM N-lm 2 3
L3Nt 3 - NtN4 3 Lull 3- Mh!4 4 L3Nt 4 - NtN4 3 L3Nt 4 - k?CH 4 L3&? 4 - NtM I L3Nt 5 - ht11k 4 L3Nt 5 - Ntn+ 5
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,J’t, aoHg, ,At, and 88Ra (in eV) See page 387 for Explanation of Tables
PLATINUM 2.7% NESURI L-80 ASTATINE L-85
9391.3% 35.32 9936.04 36.60 11341.30 39.93 9398.24 35.1% 9935.7% 36.34 11346.37 39*00 94%2.?1 39.6S 9949.41 40.97 11351.40 44.03 930.54 12.4% 9912.2% 12.84 11321.01 13.64 9300.01 16.95 WM.90 17.46 11326.03 18.66 9390.37 21.31 9921.60 28.16 11337.56 30=19 9393.39 30.33 9930.76 31.32 11341.02 33.65 9493.7s 40.69 9941.45 42.01 11352.55 45.1% 9318.21 25.21 9925.48 26.04 1133S.32 21.94 9362.22 19.16 9919.17 19.73 11328.44 21.07
9366.15 3.69 9903.19 3.15 9367.89 4.83 9904.53 5.09 9366.8% 3.82 9903.451 4.03 9366.26 3.20 9902.82 3.3% 936s .25 2.19 9901.76 2.32 936S.46 2.4% 9902.01 2.57 9368.34 5.2% 9905.02 5.5% 9364.11 3.05 9902.69 3.25 9368.99 5.93 wo5.71 6.27 93t2.37 9.31 9909.22 9.1%
11311.20 11323.83 11322.65
::g-"5': . 11310.29 11313.6% 1131l.OS 11314.44 11318.29
3.83 16.46 IS.28 -2.68 -3.w
2.91 6.30 3.68 1.07
10.92 936I.41 -1.65 9897.13 -1.71 9363.04 -0.02 9899.43 -0.01 9365.69 2.63 9902.1% 2.14 936t.95 4.89 99W.58 5.13 9370.59 1.53 9907.33 7.8% 9261.63 4.57 W%4.25 4.81 936S.69 2.63 9902.1% 2.74 9362.73 -0.33 9899.10 -0.34 9311.54 8.4% 9908.41 8.W 93ss.13 -7.93 9891.15 -8.29
99332’2 9369160 936 1.4% 9369 -60 9363.29 9311.41 936b.38 936%.6? 9362.13
8.36 9908.2% 0.24 9899.73 6.54 w%6.35
-1.5% 9%97. %l 6.54 9906.35 0.23 9899.11 8.35 9908.26 3.32 9902.97 5.61 99OS.37
-0.93 9898.4%
8.84 0.29 6.91
22 0:27 8.82 3.53 S-93
-0.96
11305.40 11301.27 11310.30 11313.08 11316.11 ll312.72 11310.30 11306.91
x-z: .
11317.34 11307.6% 1131S.lS 11305.49 11315.1s 11307.66 11317.32 11311.32 11314.00 11306.23
-1.91 -0.10
2.93 5.71 B.14 5.35 2.93
-0.46 10.12 -9.33
9.91 0.31 7.78
-1.8% 7.7% 0.29 9.95 3.91 6.63
-1.14 9364.42 1.36 9900.8% 9366.44 3.3% 9903.00 9366.%4 3.7% 9903.43 936%. 85 5.79 9905.55 9365.42 2.36 9901.95 9364.99 1.93 9901.46 9361.56 -1.50 9897.87 9351.1% -5 .%I) 9893.13 9363.99 0.93 WOO.52 93S6.44 -6.62 9692.33
:=z 3:w 6.11 2.51 2.02
-1.57 -6.31
1.0% -7.12
11308.91 1.54 11311=28 3.90 11311.81 4.44 11314.1% 6.80 11310.15 2.1% 11309.53 2.16 11305.51 -1.86 11299.91 -7.47 11308.71 1.34 11298.94 -8.43
9363.21 0.19 93S9.80 -3.26 9362.77 -0.29 93S9.32 -3.74 9364. il 1.75 9360.15 -2.91 9365.6+ 2.5% 9359.65 -3.41 9362.17 -0.69 9358.7% -4.2%
9899.71
fE= :i . 9893.40 9901.43 9896.31 w 02.34
39'~.ii . 9894. %?
0.27 11307.75 -3.S2 11303.12 -0.26 11307.11 -4.04 11302.49
1.99 11309.86 -3.13 11303.5%
2.90 11310.96 -3*61 11303.15 -0.91 11306.31 -4.51 11302.00
9361.30 -1.76 9897.57 -1.87 1130s.15 9362.92 -0.14 9899.33 -0.12 11307.22 9361.0% -1.9% 9897.33 -2.11 11304.81 9362.10 -0.36 9899.0% -0.36 11306.93 9359.12 -3.94 9895.23 -4.22 11302.40 9363.3% 0.24 9899.14 0.30 11301.71 9359.73 -3.33 9895.89 -3.56 11303.17
0.37 -4.25 -0.26 -4.89
2.49 -3.19
3.5% -4.22
I:-;: . -2.22 -0.15 -2.51 -0 .H -4.96
0.34 -4.20
MA01 UN L-88
ENERGY SliXFT
lL241.2d 42.80 1226U.lcl 32.30 12262.25 33.7% rL221.15 23.2% 12217.48 19.00 1225%.%A 60.33 12221.17 22.70 12262.51 64.03 12261.29 62.61 12209.61 11.13
IZL07.21 0.79 12218.63 20.15 1223%.0% 12249.44 ::-2 12237.39 30191 ALA%.63 20.15 12206.51 6.10 12212.61 14.14 lLL40.83 42.36 12229.38 30.90 lL240.57 42.09 12239.54 41.06 l&244.%1 46.33 iLLl2.98 14.50 12218.25 19.77 12230.2% 31.81 lL233.99 35.51 12246.W 47.54 lLL28.02 29.55 12220.70 22.22
12202.70 4.23 iZLO4.99 6.51 1L203.12 5.25 122OZ.Y4 4.46 12201.6% 3.20 1Lzo2.04 3.56 1.X05.67 7.19 12202.81 4.39 1LL06.50 8.02 lL210.50 12.02
12196.78 -1.10 121Ya.B 0.2% 12201.95 3.41 12~04.94 b.+b I2208.14 9.66 12204.56 6.0% lLLUl.95 3.41 12190.31 -0.11 122OY.74 11.27 12188.92 -9.56
l22OY.51 11.09 12199.21 0.14 ULlIl.LU 8.73 12196.85 -1.62 12207.20 8.73 L2199.20 O.?Z 12209.55 11.01 12203.10 4.63 iL205.95 7.4% 12197.63 -0.05 12200.4% 2.00 12203.00 4.52 12203.61 5.13 I&206.13 7.bS i2201.84 3.31 ULO1.12 2.64 12190.83 -1.64 API’t%.tb -7.72 &2Loo.*l 1.93 12189.6% -8.80
12199.33 0.86 12194.20 -4.27 12199.62 0.15 lllY3.49 -4.9% 12201.61 3.20 IZIY4.72 -3.76 12202.90 4.42 12lYI.S -4.15 12191.74 -0.14 12193.03 -5.44
iLIY6.+5 -2.03 lL198.70 0.23 12AYb.13 -2.34 UlY8.39 -0.09 12193.45 -5.03 lL199.24 0.17 12194.30 -4.17
1RA#S1110#
13111 I - NlllS 2 L3)11 2 - 1(1ns 2 L3Ml 2 - NlWS 3 L3n2 1 - M2MS 2 L3H2 2 - N243 2 13112 2 - IQ83 3 L3113 0 - mu3 1 L3113 1 - Iufls 1 L3113 1 - M3N5 2 L3113 2 - Iu113 1
L3W3 2 - 113113 2 L3l43 2 - (uns 3 L3W3 3 - n3ns 2 L3M3 3 - 113113 3 L3M3 3 - n3ns 4 L3M 0 - n4ns 1 Ly14 1 - N4MS 1 L3M 1 - was 2 L3N4 2 - n4ns 1 L3N4 2 - MN5 2
L3N4 2 - n4ns 3 L3N4 3 - n4ns 2 L3W4 3 - NW3 3 L3N4 3 - 114113 4 i.310 1 - asas 0 L3NS 1 - nsms 2 L3N3 2 - 113115 2
‘,E; ; - - MSNS nsns 2 4 L3N5 4 - nsns 4
L3Nl 1 - NlNs 2 13Nl 2 - NlMS 2 L3Nl 2 - NlNS 3 L3NZ 1 - n2ns 2 L3N2 2 - IUNiT 2 g:x 0’ - - wns1 nzns 3
L3N3 1 - M3NS 1 L3N3 1 - N3NS 2 L3N3 2 - N3NS 1
L3N3 2 - 11313 2 L3N3 2 - N3113 3 L3N3 3 - N3NS 2 L3N3 3 - N3RS 3 L3N3 3 - h3NS + L3N4 0 - 14113 1 L3N4 1 - MRS 1 LOU4 1 - aas 2 LW4 2 - h+NS 1 L3N4 2 - NW3 2
L3N4 2 - MN3 3 L3N4 3 - NW5 2 L3N4 3 - N4N5 3 L3N4 3 - NlNS 4 L3NS 1 - NSNS 0 L3N5 1 - NSNS 1 L3NS 1 - 115113 2 L3MS 2 - NSn5 1 L3NS 2 - NSNS 2 L3N5 2 - 113113 3
L3NS 3 - 113115 2 L3NS 3 - Ma3 3 L3NS 3 - NSltS 4 L3NS 4 - NSti 3 L3Ns 4 - NSNS 4 L3NS 4 - 113115 5 L3N6 I - ubns o L3N6 I- I#ns 1 L3N6 1 - NbnS 2 L3N6 2 - N6113 1
L3N6 2 - NbMS 2 L3N6 2 - NabIS 3 L3N6 3 - N6.M 2 L3N6 3 - N6nS 3 L3N6 3 - %NS 4 L3N6 4 - NbNS 3 L3N6 4 - Mb113 4 L3N6 4 - NbfiS 3 L3N1 2 - NlNS 1 L3Nl 2 - N7N3 2
L3N7 2 - NtNS 3 L3h7 3 - NlNS 2 L3Nl 3 - N7Ns 3 L3Nt 3 - N7Hs 4 L3Nl 4 - N7ns 3 L3N7 4 - NlNS 4 L3Nl 4 - N7nS 5
F. PARENTE et al. L X-Ray Satellite Energies 425
TABLE II. L X-Ray Satellite Energies of ,J’t, wHg, &At, and ,Ra (in eV) See page 387 for Explanation of Tables
PLATINUN 2*7e MERCURY L-60 IJTATINE 2’83
EhERGY SHIFT ENERGY SHI Fl ENERGY SHIFT
9465.64 22.23 10013.33 23.30 11434.76 26.50 9436.13 14.72 lOOOS.35 1S.M 11446.21 17.95 9471.38 28.17 10019.49 29.44 11461.42 33.1b 9474.64 31.43 10022*93 32.90 11465.42 37.16 9417.89 34.43 10026.12 36.07 11466.91 40.65 9471.73 2a.32 10019*73 29.66 114bl.96 33.70 9479.a9 36.49 10027.93 37.90 11469.94 41.67 9434.27 -9.13 WBO.69 -9.36 11416.49 -9.17 9463.61 20.20 10010.92 20.81 11450.96 22*70 9460.19 lb.76 10007.33 17.30 11447.80 19.53
9469.32 9470.34 9463.61 9444.63 9474.09 947o.oa 9469.03 9474.30 9460.18 94b4.65
947S.dl 9474.08 9464.43 9466.9b 94S9.60 9461.65 9439.14 9472.52 94u1.17 94s9.64
46.12 27.14 20.20
1.22 31.48 26.67 26.43 30.69 16.76 21.24
10037.76 10018.23 10010.92
9991.36 10022.32 10017.80
::::I. :: 10007:SZ 10012.13
47.73 26.20 20.87
1.33
::*z . 27.49 32.12 17.47 22.10
11460.27 32.01 11439.35 31.09 11430.96 22.70 11430.04 1.78 11463.37 33.11 11438.94 30.68 11438*62 30.36 11463.63 33.38 11447.73 19.47 11432.76 24.49
31.60 10022.84 32.79 11464.29 30.67 10021.93 31.68 114b3.39 41.03 10032.62 42.57 11474.92 23.35 10016.63 26.59 11437.66 16.39 10007.05 11.00 11446.60 38.44 10029.61 39.7b L1471.13 13.14 10006.30 lb*25 11445.78 29.12 10020. lb 30.11 11460.77 37.76 10029.08 39.03 11470.39 16.24 lOOOb.79 lb.74 11446.27
36.02 33.13 46.66
::-z: . 42.86 17.32 32.31 42.13 18.01
9446.75 3.35 9993.57 3.32 9445.12 i.71 9991.66 1.81 9446.67 3.26 9993.49 3.43 9441.54 4.13 9994.42 4.31 9440.19 4.78 99%. 11 3.05 9447.39 3.98 9994.27 4.22 9449.34 3.94 99%. 30 6.25 9440.02 -3.39 9916.31 -3.H 944S.00 1.67 9991.76 1.73 9444.92 1.51 9991.63 1.60
11442.99
:::x: &;;
. 11433.06 11433.29 11424.2a 11430.10 11430.09
14.13 -4.41 -2.60
4.98 3.74 4.60 7.03
-3.99 l.e* 1.82
9149.98 9449.72 9445.08 9444.62
‘,tt:-3; . 9444.66 9447.10 9442.03 9445.20
6.57 99%. 93 6.66 11433.91 7.63 6.31 99%. 66 6.61 11435.61 7.35 1.6? 9991.78 1.73 11430*10 1.84 1.41 9991.31 1.46 11429.60 10% 1.44 9991.34 1.49 11429.83 1.37 1.37 9991.54 1.49 11429.99 1*72 1.26 9991.41 1.36 11429.83 1.37 3.69 9993.97 3.92 11432.70 4944
-0.36 9969.49 -0.37 11427.64 -0.62 1.86 9992.04 1.99 11430.31 2.23
9441.40 3.99 99%. 26 4.21 11433.00 9447 .w 3.66 9993.9s 3.90 11432.68 9449.20 5.79 99%. 17 6.12 11433.17 9445.39 2.19 9992.38 2.33 11430.92 943S.69 -1.32 9982.18 -7.07 11419.41 9432.40 6.99 9999.12 9.47 11436.69 9443.03 -0.38 9969.66 -0.37 11427.83 9446.LS 4.74 9995.03 4.98 11433.60 9430.16 -4.63 9963.19 -4.86 9450.b9
11422.73 7.28 9991. b9 7.b4 11436.76
4.74 4.42 6.91
-%:Z 10.b3 -0.43
5.34 -5.52
8.30
9441.19 -2.22 9901.74 -2.31 11423.63 9453.10 9.69 10000.24 10.19 11439.66 9444. lb 0.13 9990.86 0.81 11429.13 9449.24 3.63 99%. lb 6.10 11433.02 9440.30 -3.11 Wab.78 -3.28 11424.50 9447.41 4.01 9994.24 4.19 11432.68 9436*13 -4.60 9903.06 -4.99 11422.44 9439.17 4.24 9933.31 -4.54 11422.93 9441.98 -1.43 99%. 36 -1.49 11426.34 9436.43 -4.98 9964.71 -3.35 11421.%
-2.61 11.40
0.88 6.13
-3.76
-::z -3.33 -1.13 -6.30
9441-24 -2.16 9442.39 -1.02 9440*77 -2.b4 9441.91 -1.30 9442-83 .-0.38 9442.73 -0.61 9443.63 0.24 9439.94 -3.41 9436-20 -7.13 9441.93 -1.48
9967.73 9963.97 9967.22 9966.44 9939.44 9969.33 9990.33 99%.34 9962.37 9988.51
991.30 9981.55 9963.34 9992.18 9983.09 9991.93 9984.97
-2.30 -1.06 -2.83
I;*",: . -0.70
0.30 -3.71 -7.60 -1.54
11423.37 -2.70 11426.99 -1.28 11424.93 -3.33 11426.35 -1.91 11427.34 -0.72 11427.43 -0.31 11426.64 0.38 11423.90 -4.36 11419.13 -9.12 11426.31 -1.73
9439.93 -3.48 9441&b -2.33 9439.06 -4.33 9445.33 1.93 9438.33 -4.36 944S.11 1.70 9438.14 -4.61
-3.75 11423.73 -4.31 -2.50 11423.36 -2.91 -4.71 11422.60 -3.66
2.13 11430.64 2.56 -4.% 11422.31 -5.95
1.88 11430.5s 2.29 -3.08 11422.13 -6.14
RAOiUN
EMRGV
11309.33 12360.31 12376.32 lL1BO. b3 12384.34 12377.05 12383.06
12331.03 iLjb4.84 123bl.US
lL19S.b8
248
SHIFT
28.42 19.40 33.41 39.74 43.44 36.14 44.15
23 20:94
34.17 33.01 23.YS
:fi:? :i 2.19
12>73:52 36.66 32.63
123t3.1e 32.27 u370.4> 37.34 lZab1.73 20.82 12367.00 26.09
12379.03 38.12 1237U.13 37.27 lL390.21 49.30 IL372.21 3L.31 lL360.34 19.63 Ai3a6.Lb 12359.39 12375.33 12385.31 12jbO.OS
45.2) 10.60 34.42 44.46 19.14
12343.59 4.66 123k3.34 2.63 ILd45.4L) 4.37 12346.71 5.80 12jCt.33 6.62 1234b.32 3.61 12348.02 7.91 12~37.08 -3.83 lU43.24 12343.27
12349.43 12349.11 12jk3.24 UA42.92 12342.96 U343.21 12343.04 12346.10 U340.67 12343.74
ld3+6.39
2.33 2.36
a.52 d.20 2.33 2.02 2.05 2.30 2.13 3.19
-0.24 2.03
5.46 U346.06 3.17 IL346.74 7.83 12344.20 3.29 12331.88 -9.03 U352.bI L1.76 11940.60 -0.03 12347.19 6.26
12335.40 12350.$4 -x: .
U336.53 -2.36 12353.47 12.36 12342.26 1.35 12U6.4b 7.33 i2337.25 -3.66 I234b. 19 3.26 123dS.03 -5.88 12~35S4 -5.37 12339.48 -1.43 12334.46 -6.45
lL336.40 -2.51 L2339.94 -0.97 lZA3t.69 -3.22 12339.23 -1.66 12340.53 -0.38 12d40.45 -0.4b 12341.76 0.83 12M6.56 -4.33 12331.36 -9.33 12339.46 -1.43
12336.37 -4.34 12338.17 -2.74 12335.on -5.d3 12344.16 3.23 12334.77 -6.14 12343.85 2.94 12334.54 -b.37
426
7n*Ns1r1Q( EkfR6Y SIdIFf ENERGY SHIFT ENERGY SHIFT
;i:: : - - N7#5 N7#5 4 5
;x:: : - - II&N& N7W5 6 0 UN1 1 - MAW1 1 L-1 2 - MUI 1
‘,Ef : - N2NlO
i3N2 - JI2Nll
2 - MN11 L3N3 0 - MN1 1
L3M3 I - MN1 1 L3N3 1 - KIN1 2 I.3113 2 - (13Nl 1 L3N3 2 - 1(3NI 2 L3N3 3 - MN1 2 LU(4 0 -N4&11 L3M4 1 - MN1 1 L3M 1 - MN1 2 L3N4 2 -l&N11 L3M 2 - MN1 2
9445.71 2.31 9992.59 2.54 11431.33 3.07 9439.34 4.07 9985.63 -4.42 11422.90 -5.36 9445.70 2.29 -92.63 2.57 11431.49 3.23
lC887.73 55.02 11532.38 57.47 13226.36 64.26 10898.46 65.75 11543.63 68.71 13238.96 76.07 10890.98 58.24 11535.83 60.91 13230.42 63.32 10897.71 64.99 11542.91 67.99 13236.34 76.25 10896.20 63.48 llS41.33 66.41 13236.59 74.49 lCe99.25 66.53 11544.50 69.58 13240.06 77.98 109 19.15 86.43 11564.54 89.63 13260.01 97.91
10873.53 10876.55 10899.44 ta902.46 10876.55 10905.24 10905.aa 10903.98 16895.35 10894.33
40.81
:x . 69.75 43.04 72.52 72.20 71.27 62.63 61.62
11517.28 42.36 llS20.44 45.53 11544.15 69.23 115477.31 72.39 11520.44 45.53 11550.33 75.41 1155a.07 75.15 11549.01 74.09 lma.as 65.14 11538.99 64.07
:mx: . 13237.87 13241.40 13212.09 15245.01 13244.70 13243.51
46.46 49.99 75.71 79.30 49.99 82.92 82.60 81.42 71.71 70.53
L3N4 3 - N4Nl 2 L3115 1 - nm1 2 L31(5 2 - USN1 2 L315 2 - #SW1 3 L3M5 3 - USN1 2 L3115 3 - N5U 3 L3115 4 - NSNl 3 z:: : - - N2NlO NlNl 0
LIN2 A - N2Nl 1
L3N2 2 - NZNl 1 L3N3 0 - NlNl 1 L3N3 1 - N3Nl 1 L3N3 1 - WN1 2 L3N3 2 - tiNi 1 L3N3 2 - N3Nl 2 L3N3 3 - N3NL 2 L3N4 0 - N4Nl 1 L3N4 1 - N*Nl 1 L3N4 1 - N4Nl 2
L3N4 2 - WNl 1 L3NS 2 - N4Nl 2 L3N4 3 -Ml2 L3N5 1 - NSNl 2 L3N5 2 - NSN1 2 LbNS 2 - N5Nl 3 L3N5 3 - N5Nl2 L3N5 3 - k5Nl 3
t3Ti : - N5Nl 3 - N6Nl 2
L3N& 2 - N6Nl 2 L3N6 2 - N6Nl 3 LINI 3 - WNl2 L3N6 3 - MN1 3 L3N6 4 - WNl 3 L3N7 2 - N7NNL 3 L3N7 3 - NINA 3 L3W 3 - N7Nl 4 L3N7 4 - NYNl 3 L3N7 4 - N7Nl 4
L3N7 5 - N7Nl 4 L3Nl 1 - MN2 1 L3Ml 2 - NAti2 0 L3Nl 2 - NlN2 1 L3&? l- lylul LINZ 2 - N2N2 0 L3N2 2 - N2N2 1 L3N3 0 - N3N2 2 L31(3 1 - mw 1 L3k3 1 - N3N2 2
L3N3 2 - N3N2 1 L3113 2 - N3N2 2 L3N3 3 - N3Nt 1 L3N3 3 - N3N2 2 L3N4 0 - MN2 2 :1:: : - N4N2 1
-nw22 LJN4 2 - MN2 1 L3N4 2 - N4N2 2 L3NC 3 - M4N2 1
L3N4 3 - N4N2 2 L3W5 1 - (1342 2 L3N5 1 - NSNZ 3 L3R5 2 - N5N2 2 L3H5 2 - N5N2 3 L3M5 3 - N5N2 2 I.3115 3 - nsN2 3
F. PARJWTJZ et al. L X-Ray 8ateMe Energies
TABLE II. L X-Ray Satellite Energies of *PC, &g, =At, and =Ra (in eV) See page 387 for Explanation of Tables
ASTATINE PLAT tNLfM Z-78
10903.76
:XtbX*f: 10891: 11 10902.94 10904.49 10682.97
:“0:3:=:: . 10844.36
71.04 79.55 56.85
;i-;: 7r:7e SO.26
7.46 20.48 11.65
10845.at 12.30 10840.78 8.06 10831.45 -1.26 10848.27 15.55 10836.35 3.64 10853.17 20.46 10848.27 15.55 10844.70 11.99 30844.59 11.87 10840.14 7.42
10842.77 to.05 10638.32 5.60 i084a.it 7.41 10839.61 6.69 10835.36 2.65 10841.93 9.21 10837.77 5.06 10844.34 11.63 10840.48 7.76 10835.58 2.86
ia834.e4 10832.49 p3f.;;
. 10832.84 10832.20 10831.33 10834.45 10831.11 10834.23
2.13 -0.23
1.65 -0.70
0.12 -0.51 -1.38
1.74 -1.61
1.51
10834.33 2.12 liali.25 61.02 11004.99 54.75 11003.74 53.51 11018.82 68.59 11009.97 59.74 11021.87 71.63 11031.69 67.46 10993.16 42.93 10992.07 41.84
11019.07 11017.99 10993.16 10992.07 11023.50
%fE . iioia.et 11013.69 11020.23
68.64 1167a.71 71.42 13362.39 67.76 11669.57 70.28 13381.11 42.93 11643.84 44.56 13353.09 41.84 11642.70 43.42 13351.80 73.35 11675.53 76.25 13388.01 70.23 11672.26 72.97 13384.30 73.11 11615.27 7s. 99 13337.69 60.58 11662.24 62.96 13373.41 63.46 11665.26 65.97 13376.80 70.00 11672.02 72.74 13384.05
11023.11 12.86 iia30.95 60.72 11030.15 79.92 t100e.24 58.01 11007.45 57.21 11021.62 71.39 11020.83 70.60
NEUURY
11548.77 11517.35 11533.85 11535.47 11347.71 11549.33
xz- 8: 1149b:bl 11487.43
11488.11 11483.64
:::,'?:f . 11479.00 ll4%.42
::tt% ;;fM;:g
.
11485.72 11481.09
::t:p:: ::fE:;g
11480:51 11487.35
::t::% .
11477.56 11475.08 11477.04 11474.55 11475.46 11474.78 11473.62 11477.12 11473.56 11476.68
11477.54 11663.01 11656.51 11655.21 11671.04
x-f: . 11689.96 11643.84 11642.10
11675.04 11682.91 11682.08 11659.41
::bEzT 11672:43
2-80 245
73.86 62.43 53.93 60.55
;:i’: 52: 12
0.11
::'f; .
'%29 -1:06 lb.37
2::: 16.37 12.86
%i . 10.81
6.17 8.08 7.53 3.04 9.80 5.59
12.43
::2
13243.26 81.16 13251.61 89.51 13226.24 64.15 13228.06 65.96 13241.24 79.14 13243.a5 60.95 13216.94 56.84 13102.63 20.59 13186.97 24.87 13176.89 14.80
13177-66 15.56 13172.56 10.46 13161.54 -0.55 13180.51 18.42 13167.35 5.26 13106.33 24.23 13180.51 18.42 13177.20 15.10 13177.04 14.95 13171.94 9.84
13174.85 12.76 13169.75 7.65 13171.92 9.82 13171.25 9.15 13166.16 4.06 13173.68 11.56 13169.06 6.% 13176.58 14.48 13171.93 9.84 13167.05 4.36
2.65
Zf . -0.37
0.54 -0.13 -1.10
2.20 -1.34
l.%
13166.09 3.99 13163.26 1.19 13165.45 3.35 13162.65 0.55 13163.15 1.65 13162.94 0.84 13161.76 -0.31 13165.51 13ibl.50
3.41 -0.60
13165.22 3.12
2.62 13166.00 3.90 63.73 13375-41 71.11 57.23 13368.32 64.02 55.93 13366.67 62.56 71.76 13384.69 80.38 62.41 13374.00 69.70 74.93 13388.1lJ 83.87 90.68 13403.25 98.95 44.56 13353.09 48.78 43.42 13351.60 47.5a
76.09 76.80 48.78 47.50 83.71 00.00
“,z-E . 72.50 79.74
75.76 83.63 82.79 60.13 59.29 73.99 73.15
13387.44 13395.01 13394.06 13369.64 13365.70 13384.63 13383.69
83.13 90.70 09.76 65.34 64.39 80.33 79.39
RADluN 2=80
ENERGY SHIFT
12344.70 3.79 12335.39 -5.52 12344.94 4.03 14298.33 68.37 14311.82 81.86 14302.80 72.84 14211.L4 8i;28 14309.38 79.42 14313.07 63.11 14333.02 103.06
I4279.00 49.04 I4282.77 52.81 14jO9.81 79.65 14dL3.59 83.63 14202.77 52.61 14317.51 87.61 143J7.20 87.24 14315.94 85.98 14305.75 75.79 14304.49 74.53
A4S15.67 85.71 14324.17 94.21 14LYI.bJ 67.64 A4~99.54 69.56 ldl3.34 63.38 143315.2e US.32 A4&l9.96 60.00 14241.29 11.33 14257.27 27.31 14246.63 16.67
14247.44 17.50 I424L.09 11.93 I4230.15 0.19 14r50.04 20.06 14236.34 6.30 142256.23 26.27 14250.04 20.08 14246.86 16.90 14246.69 lb.73 14241.30 11.34
14244.33 14.37 A4236.93 6.97 1424l.PB 11.32 14240:33 10.57 14235.05 5.09 14242.96 13.02 14233.16 3.22 1424b.ll 16.15 14241.10 11.14 i4230.26 6.30
14233.16 5.22 lC232.19 2.23 142234.47 4.51 14231.46 1.52 142r2.71 2.n lr231.82 1.65 14L30.53 0.57 14234.50 4.54 14230.2A 0.25 14234.19 4.23
14235.04 5.08 1*59.2> 75.62 14451.75 68.15 14450.20 66.60 14469.28 85.60 14451.73 74.13 14472.98 89.37 14467.71 104.11 14435.07 51.47 1*433.69 50.08
14465.69 82.20 144b4.51 00.90 14435.01 51.47 14433.69 50.06 14471.99 68.39 14467.99 84.39 14471 .b3 88.02 14456.54 72.94 14460.17 76.57 144b7.73 34.12
14471.36 87.75 14479.02 95.42 14478.OJ 94.40 14452 -46 68.86 14451.45 67.04 14468.20 84.59 14467.19 a3.58
TRANSITION ENERGY SHIFT ENENGY SHt FT ENERGY SHIFT
L3N5 4 - n5n2 2 L3n5 4 - NN42 3 L3Nl 1 - NlN2 1 L3N1 2 - NlN2 0 L~NI(I 2 - NlNZ 1 L3N2 2 - N2N2 0 L3N3 0 - N3N2 2 L3N3 1 - N3N2 1 L3N3 1 - N3N2 2 L3h3 2 - N3NZ 1
11000~10 49.w 10999.30 49.07 10%2.26 12.03 15969.46 19.23 10960.63 10.40 10958.19 7.96 10963.76 13.53 10959.02 8.79 10954.44 4.21 10963.92 13.69
11650.98 11650.14 11612.14 11619.61 11610.43 MO.;;
. 11608.65 11603.90 11613.79
51.70 13360.52 50.86 13359.58 12. a6 13330.05 20.33 13320.98 11.15 13310.90
0.69 13314. a5 14.40 13320.90
9.37 13315.04 4.b2 13309.88
14.51 13320.85
56.22 55.27 25.74 16.68
6.60 10.54
:8-z . 5.58
16.55
L3N3 2 - N3NZ 2 L3N3 3 - N3N2 1 L3N3 3 - N3W 2 UN4 0 - N4NZ 2 L3N4 l- N4N21 L3N4 1 - N4N2 2 L3N4 2 - N4N2 1 L3N4 2 - N4N2 2 L3N4 3 - N4N2 1 L3N4 3 - N4N2 2
L3N5 1 - N5N2 2 L3N5 l- N5N2 3 L3N5 2 - N5N2 2 L3N5 2 - NSN2 3 L3N5 3 - N5N2 2 L3N5 3 - N5N2 3 L3N5 4 - N5N2 2 L3N5 4 - N5N2 3 L3Nb 1 - NbN2 2 L3W 1 - NbN2 3
L3Nb 2 - NbN2 2 L3Nb 2 - hbN2 3 L3N6 3 - NbN2 2 L3N6 3 - h4N2 3 L3N6 4 - N6N2 2 L3Nt 4 - hbN2 3 L3N? 2 - hlN2 3 L3Nl 2 - hlN2 4 L3N7 3 - NtN2 3 L3Nl 3 - NtN2 4
L3N? 4 - NlN2 3 LEN? 4 - h?N2 4 L3Nt 5 - NtN2 3 L3Nt 5 - htN2 4 L3Ml 1 - MlN3 I L3Ml 1 - nlN3 2 L3111 2 - NlN3 1 L3111 2 - /UN3 2 L3112 1 - N2N3 1 L3N2 1 - n2N3 2
C3N2 2 - N2N3 1 L3M2 2 - N2N3 2 L3H3 0 - N3N3 2 L3M3 1 - 113N3 1 L3n3 1 - IUN3 2 L3R3 1 - B3N3 3 L3M3 2 - N3&3 0 L3113 2 - N3N3 1
:3::: : - - H3N3 H3N3 2 3
13113 3 - n3w i L3M3 3 - M3N3 2 L3M3 3 - n3N3 3 L3n4 0 - n4N3 2 k3n4 1 - n4~3 1 L3M4 1 - 114N3 2 L3N4 1 - H4N3 3 L3N4 2 - MN3 0 L3n4 2 - tw3 i c3114 2 - n4N3 2
L3M4 2 - M4N3 3 L3R4 3 - MN3 1 L3M4 3 - N4N3 2 L3114 3 - n4N3 3 L3n5 i - n5w 1 L31)5 1 - HSN3 2 L3N5 1 - MSM 3 L3M5 2 - N5N3 1 L3M5 2 - M5N3 2 L3W5 2 - M5N3 3
L3n5 2 - M5N3 4 L3115 3 - n5N3 1 L3M5 3 - M5N3 2 L3N5 3 - M5N3 3 L3M5 3 - n5N3 4 L3n5 4 - Jk5N3 2 L3N5 4 - MN3 3
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,$‘t, eoHg, &At, and =Ra (in eV)
PLATINUII Z-18 nmcuny L-80 ASIATINE L-85 RAOlW
ENERGY
14442.L8 14441.87 14400.37
bee
SHIFT
59.27
144oL1.96 1439u.32 14dY5.7cl 14401.96 14395.62 143YO.f2 1*401.80
58.26 lb.16 25.35 14.12 12.17 lU.36 12.01 6.61
18.20
10959.34 9.11 11609.04 9.16 10959.02 8.79 11608.65 9.37 10954.44 4.21 11603.90 4.62 10968.84 18.61 11619~05 19.77 10952.61 2.38 11602.13 2.85 10968.73 18.50 11618.92 19.64 10950.79 0.56 11600.21 0.93 10966.91 lb.68 11617.00 17.72 10952.59 2.36 11602.12 2.84 10968.71 18.48 11610.91 19.63
13315.70 13315.04
:3x’:: 133oe:31 13326.02 13306.12 13324.63 13308.29 13326.80
11.39 443Y6.4I 12.80 10.74 I43Y5.62 12.01
5.58 14390.22 6.61 22.67 14408.50 24.89
4.01 143W.76 5.16 22.52 14401.32 24.72
1.82 14366.40 2.tlo 20.33 14405t9b 22.36
3.99 44368.15 5.14 22.50 14408.30 24.70
lCS61.51 11.28 11611.39 10958.78 8.55 11608.55 10957.26 7.03 11606.90 10954.54 4.30 11604.06 10559.67 9.44 11609.45 10556.95 6.72 11606.61 lOS55.81 5.58 11605.31 10953.09 2.86 11602.53 10949.54 -0.69 11598.99 10955.17 4.94 11604.94
12.11 9.21
X:% 10.17
7.33 6.08 3.25
-0.29 5.64
13318.44 14.14 13315.32 11.02 13313.35 9.05 13310.23 5.93 13316.25 11.95 13313.13 0.83 13311.61 7.30 13308.49 4.10 13304.99 0.69 13311.70 7.39
143YY.42 14396.13 14393.95 143YO.bb 14397.0.5 14313.79 i4392.Ob
15.82 12.53 10.34
7.05
14380.77 A4YlJ5.34 14392.49
13.41 10.18
8.46 5.17 1.13 8.88
io948.80 -1.43 11598.19 -1.10 13304.02 -0.28 14364.26 0.66 10954.43 4.20 11604.13 4.85 13310.73 6.42 14391.41 7.80 10948.32 -1.91 11597.66 -1.62 13303.39 -0.92 143u3.55 -0.05 10953.96 3.73 11603.60 4.32 13310.09 5.79 14390.70 7.09 10949.15 -1.08 11598.57 -0.71 13304.48 0.18 14384.78 1.17 10954.78 4.55 11604.51 5.23 13311.19 b.88 10052.05
143391.92 Ii.32 1.82 11601.63 2.35 13307.91 3.60 14.?+80.40 4.80
10950.44 0.21 11599.93 0.64 13305.98 1.67 1438b.34 10951.18 0.95
2.73 llbOO.67 1.39 13306.75 2.45 L43C7.12 3.51
10949.57 -0.66 11598.96 -0.32 13304.82 0.52 14385.05 1.44
lC95C.95 0.72 11600.42 1.14 13306.47 2.16 10949.34 -0.89 11598.72 -0.56 13304.53 0.23 10951.56 1.33 11601.08 1.80 13307.24 2.% 10949.95 -0.28 11599.36 0.10 13305.31 1.01 11103.12 61.83 11768.83 64.73 13524.55 72.71 11105.68 44.38 11771.52 67.41 13527.59 75.75 llC95.61 54.32 11761.04 56.93 13516.00 64.16 11098*17 56.87 11763.72 59.61 13519.04 67.20 11107.34 66.05 11773.34 69.23 13529.82 77.98 11106.34 65.04 11772.29 68.18 13528.64 76.80
l4>a;6.00 14384.73 14381.65 143a5.59 1464O.bb i4644.13 14001.1(3 14635.11 lIb46.60 14645.35
3.19 1.13 4.05 1.98
77.63 80.90 68.60 11.88 83.37 82.12
11110.39 69.10 11776.51 72.40 13533.31 81.47 11109.39 68.09 11775.46 71.35 13532.13 80.29 11128.39 87.09 11794.54 90.44 13550.95 99.11 llGa9*61 48.32 11754.45 50.34 13507.52 55.68 11082.77 41.47 11747.28 43.17 13499.50 47.67 llC89.61 48.32 11754.45 50.34 13507.52 55.68 11100.37 59.07 11765.48 61.38 13519.25 67.41 11115.52 74.23 lltai.3i 77.20 13536.82 84.98 iiioe.68 67.39 11774.15 70.0s 13528.61 76.97 11115-52 14.23 litei.3i 77.20 13536.82 84.98
14650.30 14649.05 14667.79 14bLL.31 l&13.76 14622.31 14bj4.46 l'tb53.12 14644.5u 14453.12
at.07 85.82
104.56 59.08 50.53 59.00 71.23 89.89 81.35 89.89
llC89.61 48.32 11082.77 41.47 11089.61 48.32 11117.16 75.87 11114.28 72.98 11116.92 75.63 11113.96 72.67 11102.99 61.69 11104.63 63.33 11107.27 65.97
11754.45 11747.28 11754.45 11783.13 11180.12 11782.87
::%-:x . 11770.11 11772.86
50.34 13501.52 55.68 14022.31 43.17 13499.50 47.67 14bl3.76 50.34 13507.52 55.68 l4bLL .3 1 79.02 13539.08 07.25 14b55.66 7b. 02 13535.74 83.90 14652.09 18.77 13538.77 86.93 14b55.29 75.69 13535.38 83.54 14651.71 64.30 13522.96 71.14 14b30.46 66.00 13524.85 73.01 14b40.64 68.75 13527.80 16.04 14fA43.iJ4
59.08 50.53 59.08 92.43 aa.06 92.06 88.48 75.43 77.41 80.61
11104.31 63.02 11769.70 65.67 13524.49 72.65 11114.05 72.76 11779.89 15.78 13535.49 83.65 11116.69 IS.40 11782.64 78.53 13538.51 86.67 11113.?4 72.44 11779.56 75.45 13535.12 83.28 11119.b6 78.31 11785.44 81.34 13540.50 88.66 11124.72 83.43 11790.72 86.61 13546.32 94.48 11124.G 83.17 11790.45 86.34 13546.02 94.18 11096.% 55.66 11761.94 57.83 13515.13 63.29 11102.02 b0.72 11767.21 63.11 13520.95 49.11 11101.76 60.46 lllM.94 62.84 13520.65 68.81
l4640.26 14b51.03 14b55.OL A4bSl.44 14b56.78 14662.94 ItibL.63 A4b30.22 1463b.30 14636.Ol
77.03 88 .bO 91.79 8B.21 93.55 99.71 99.40 66.99 73.15 72.84
11101.79 60.49 11766.97 62.87 11110.34 69.04 11775.80 71.69 11115.40 74.10 11781.07 76.96 11115.14 73.84 11780.80 76.69 11115.17 73.87 11?@0~83 76.72 11093.88 52.58 11758.78 54.68 11093.62 52.32 11758.51 54.41
13520.69 13530.12 13535.94
::33xt 13511:e3 13511.53
68.85 146a6.10 72.07 78.28 14b45.96 82.73 84.10 14652.12 88.89 83.81 14b51.00 88.58 83.84 14651.84 ea.61 59.99 14626.00 63.57 59.69 1462b.48 63.26
See page 387 for Explanation of Tables
427
428
TRANSITION ENERGY SHIFT ENEMY SHIFT ENERGY SHlFT ENERGY SHIFT
L3US 4 - USN3 4 Llki 1 - WIN3 1 L3Ni 1 - hlN3 2 L3Nl 2 - WIN3 1 Lull 2 - NAN3 2 UN2 A- )IzN3 1 L3N2 1 - h2N3 2 L3N2 2 - N2N3 1 i3N2 2 -n2N32 UN3 0 -N3N32
L3N3 1 - WN3 2 Lull 2 - WI13 0 L3N3 2 - EON3 2 L3W3 3 -NM32 L3k4 0 - NbN3 2 L3N4 1 - WN3 1
11093.64 11045.58 11962.40 ll%J*% 11060.76 11055.26 11050.61 11055.91 11051.32 11057.14
52.35 4.29
‘: 35” 19:41 13.96
9.38 14.61 10.02 14.45
11158.54 54.44 11109.01 4.90 11726.44 22.33 11101.30 3.19 iil24.13 20.62 11719.09 14.98 ill 14.34 10.23 11119.71 15.bb 11715.02 10.91 11121.59 17.48
13511.56 134b9.15 13488*12 13450.00 13468.98
:;::xf 13470:26 13465.10 13411.98
59.12 11.31 36.28
;:=:: LA5 12.50 18.42 13.26 20.14
14426.52 63.29 14411.21 8.04 i459i*ll 21.94 14569.23 6.00 14589.12 25.89 14583.03 19.71 14517.60 14.37 14583.83 20.60 i45?8.43 15.20 iM05.4L 22.19
11048.42 11044.23 11053.32 11048.42 11053.42 11048.91 11053.30 11048.83 llC4~.98 11047.15
1.12 2.94
12.02 7.12
12.12 1.68
‘?E 7:68 5.86
11111~80 1.70 11707.52 3.41 11116.95 12.84 11711.80 1.70 1111t.11 13.06 11112.54 8.44 11717.04 12.93 11112.39 8.29 11112.51 8.40 11110.62 6.51
13460.96
::t::%i 13460:96 i3467.30 13462.22 13467.14 13442.04 (3462.07 13460.03
9.13 4.bS
14.94 9.13
15.46 10.38 15.31 10.21 10.23
8.19
A4513.6~ 145b9.05 14579.81 1451~.60 14580.61 14515.25
10.4s 5.82
16.64 10.45 17.38 12.02 11.21 il.83 11.19
9.66
L3H4 A- MN3 2 L3N4 1 - NbN3 3 i3N4 i - N4w 0 L3N4 2 - MN3 1 L3N4 2 - WN3 2 L3W 2 -N4N33 L3N4 3 - h4W 1 L3N4 3 - WIN3 2 L3N4 3 - n4h3 3 L3N5 1 - NSN3 1 L3N5 1 - WN3 2 I.3115 1 - NSN3 3 i3k5 i - kSN.3 1 L3N5 2 - N5N3 2
L3N5 2 - NSN3 3 L3N5 2 - NM3 4 LYlS 3 - N5ru 1 ~3N5 3 - NSN3 2 ~3N5 3 - MN3 3 L3N5 3 - N5N3 4 L3a5 i - k5Ni 2 L3N5 4 - WIN3 3 L3k5 4 -IOU34 L3N6 1 - NW3 1
L3N6 1 - NhN3 2 L3Nb 1 -NW33 L3N6 2 - N6N3 1 L3N6 2 - NbN3 2 L3ruL i - MN3 3 L3N6 2 - N6N3 4 L3Nb i - NbN3 A L3N6 3 - MN3 2
t316” x : z3 i
L3N6 4 - NbN3 2 L3Nb 4 -NW33 L3N6 4 - WN3 4 L3Nl 2 - N7N3 2 L3W 2 - NlW 3 LW? 2 - U7N3 4 L3Nt 3 - N?Ni 2 L3N7 3 - NlN3 3 L3N7 3 - N7N3 4 L3Erl 3 - h7W 5
L3N7 4 - klN3 2 L3Nl 4 - N7N3 3 LJN7 4 - NtN3 4 L3Nl 4 - NlU3 5 L3Nl 5 - N7N3 3 L3Nl 5 - N7N3 4 L3Nl 5 - NlU3 5 L3Nl 1 - MN4 1 L3Nl 1 - NlN4 2 L3Ni 2 - NiN4 1 LJHi 2 - NiN4 2 L3N2 1 - N2N4 1 L3N2 1 - KM4 2 L3N2 2 - N2N4 1 L3N2 2 - N2N4 2 L3N3 0 - N3N4 I L3113 1 -u3N40 L31(3 1 - roNI 1 L3N3 1 -N3um2 L3113 2 - ION4 1
L3N3 2 - N3N4 2 ~3N3 2 - N3N4 3 L3N3 3 - N3N4 2 LM3 3 - 43N4 3 L3N4 0 - Mu4 1 L3m4 l-m4114 0 L3114 1 - II4N4 1
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,$t, eoHg, eJAt, and &a (in eV) See page 387 for Explanation of Tables
PLA?I WJU Z-18 UERCURY ?.=80 ASTATINE 2185 WOllM it=88
i45iyo*44 14515.06 i4515.02 14512.89
:::::-t: 11048:W 11053.28 11048.82 11042.76 11056.41 11046.44 11033.52 11052.16
‘X .
1X 1.52 1.41
15.11 5.14
-2.78 10.86
11715.12 11.01 13464.95 13.11 IC511.Od 11110.41 6.36 13459.85 8.02 14512.tO 11112.53 8.42 13462.20 10.36 14515.23 11717.02 12.92 13461.13 15.29 1*5(10.4.2 11112.38 8.21 13462.03 10.19 14575.04 117%.01 1.96 13455.03 3.19 14561.63 11720.25 16.14 13410.51 18.13 145n3.99 11109.90 5.19 13459.25 l.42 14572.09 11701.58 -2.53 13449.94 -1.90 14562.15 liIl5.16 11.65 134b5.48 13.64 i451(1.51
14.85 9.41
12.00 17.19 11.81
4.40 20.16
8.86
11042.i9 0.89 11105.41 ilC58.26 16.96 11722.09 11040.93 -0-31 11104.13 11054.51 13.28 11718.31 11044.60 3.31 11107.96 11040.67 19.31 11724.64 11050.11 9.42 11114.23 11040.74 -0.56 11703.81 11056.cJl 15.51 11720.55 11041.37 0.08 11104.11
1.30 17.98
0.02
‘3% g: :;
. -0.23 lb.45
0.60
13454.17 2.33 i3412.39 20.55 13452.84 1.01 13468.38 lb.54 13451.07 5.23 13475.29 23.46 i34b3.74 11.90 13452.42 0.58 13470.65 18.81 13453.18 l-94
145L5.2e 14561.64 145b9.15 14588.91 145lb.63 14564.13 14583.89 14566.45
3.39 22.55
2.05 18.41
b-52 25.68
3.22
11043.21 11046.60 11040.63 11042,47
: :w :: 11040:16 1104 1.99 11045.39 11040.06
1.91 5.31
-046 1.11 4.57
-0.75 -1.14
0.70 4.09
-1.23
111%.65 11710.22 11703.90 11705.84 11709.41 11193.81 ii703.38 11105.31
::wtt .
11106.22
::32:x . 11100.65 11708.44 11106.63 11699.69 L1101~50 11705*61 11108~52
2.54 6.11
-0.20 1.73 5.30
I”,*;;
1:21 4.17
-0.83
f :ti 0.08
-3.45 4.36 2.53
-4.42 3.40 1.5b 4.41
13455.99 13459.95 13452.81 13455.02 13458.98 13452.73 13452.18 13454.38
:x*:9” .
13455.48 13459.45 13453.19 13449.19 13457.91 13455.92
:za-“ld . 13454.16 13457.83
4.15 145bki.82 8.11 I4513,OI 0.91 14565.37 3.18 1*56?.14 7.14 14571.9~ o.n9 14Sb5.30 0.34 14564.66 2.54 i55bt.03 6.51 14511.22 0.25 142b4.59
9.18 2.14 4.51 a.71 2.07 1.43 3.80 1.99 1.36
11042.82 1.52 11046.21 4.92 11040.89 -0.41 11031.54 -3.16 11044.96 3.61 11043.21 1.91 11036.66 -4.63 11044.09 2.80 llG42.33 1.04 11045.08 3.79
3.64 145b8.25 1.61 14512.45 1.35 14565.611
-2.65 14561.54 6.01 145to*r9 4.08 145u.71
-3.80 14560.26 4.92 14569.50 2.92 14561.42 5.99 14510.59
5.02 9.22 2.58
-1.68 7.56 5.48
-2.97 6.21 4.19 t.3b
llC36.44 ;;N$.:;
11044:85 11044.41 11042.11 11045.46 11294.94 11294.29 11281.43
-4.86 2.51 0.81 3.56 3.18 1.42 4. lb
b3.66 63.01 56.15
1128b.78 55.50 11296.02 64.14 11291.82 bb.54 11299.01 61.19 11300.87 69.59 11320.65 89.37 11272.% 41.66 11275.03 43.15 11211.93 46.64 11300.95 69.61
11699.45 11101.26 11705.42 11108.28 11107.92 11106.08 11708. % 11911.01 ;:;g.‘I;
.
11962.60 11912.28 11974.11 11975.45 11971.34 11997.25 11947.80 11919.99 11953.03 11976.%
-4.66 13447. I5 -4.09 14559.94 -3.29 3.15 13456.41 4.63 i45bP.iP 5.96 1.32 13454.47 2.63 ~45bl.iO 3.81 4.17 13457.54 5.10 i4510.2(L 1.0s 3.81 13451.25 5.41 14510.04 6.61 1.98 13455.25 3.41 145b7.96 4.13 4.83 13458.32 6.48 14571.13 7.90
66.56 13753.46 74.51 l4Wlb.32 19.39 65.81 13152.10 13.15 14ddd5.52 79.59 58.16 13144.91 65.96 1*1)11.30 70.37
58.09 i3744.15 65.2I 61.71 13755.01 16.04 b9.46 13151.15 18.20 10.94 13158.50 19.55 I2.83 13760.64 81.69 92.14 13180.40 101.46 43.29 13126.52 47.57 45.48 13128.96 50.01 48.52 13132.36 53.41 12.35 13158.26 19.32
14(Llb.50 /*(IIIY.OY 14890.30 14u91.1* 14a94.w A4913.03 i4051.21 14859.80 L4063.43 l’d9O.bZ
69.57 81.15 83.45 84.85 01.15
%% . 52.81 56.50 83.69
11303.84 12.56 llrr~189 15.38 13161.67 82.12 14094.25 81.32 11300.61 69.39 11916.51 12.06 13151.94 18.99 14890.27 83.34 11271.93 4b.64 11953.03 48.52 13132.36 53.41 A4Ub3.43 56.50 11274.76 43-48 11949.11 45.19 13128.63 49.69 14859.46 52.53 11309.95 16.46 li98b.40 8t. 89 13169.21 90.26 149Od.45 95.52 11293.41 62-13 11969.02 64.50 13749.59 10.64 14081.44 14.51 11309. to 18.42 11986.15 81.63 13168.89 89.94 14902.011 95.15
TRAhSITION ENERGY SHIFT ENERGY SW Fl ENERGY StllFT
LM4 1 - nrN4 2 L3n4 2 - )(QN4 1 L3n4 2 - n4N4 2 LIW4 2 - MN4 3 L314 3 - n4N4 2 L3114 3 - n4N4 3 L3M 1 - MN4 1 L3M5 1 - MN4 2 L3nJ 2 - USN4 1 L3115 2 - C15N4 2
L3M5 2 - nsN4 3 L3MS 3 - MN4 2 a45 3 - MN4 3 L3lu 3 - MN4 4 L3n5 4 - MN4 3 L3n5 4 - nm4 4 L3Nl 1 - NlN4 1 L3Ni 1 - NlM 2 L3Nl 2 - NlN4 1 L3N1 2 - NlN4 2
L3Nt 1 - WN* 1 L3Nt 1 - N2N4 2 L3N2 2 -N2N41 L3N2 2 - NZN4 2 L3N3 a - N3N4 1 L3N3 1 - ~3h4 a L3N3 1 - N3N4 1 L3N3 1 - N3N4 2 L3N3 2 - N3N4 1 L3N3 2 - N3N4 2
L3N3 2 - N3N4 3 L3N3 3 - N3N4 2 L3N3 3 - N3N4 3 L3N+ 1 - N4h4 0 L3N4 1 - N4N4 2 L3NS 2 - MN4 2 L3N4 3 - N4N4 2 L3N5 1 - N5N4 1 L3N5 1 - NW4 2 L3N5 2 - NSN4 1
L3N5 2 - NSN4 2 L3NS 2 - NSN4 3 L3N5 3 - NSN4 2 L3N5 3 - NlN4 3 L3N5 3 - MN4 4 ~3N5 4 - N5N4 3 L3N5 4 - NSN4 4 L3Nb I - haN4 I L3Nb 1 - N6NC 2 L3Nb 2 - MN4 1
LlNt 2 - NbN4 2 L3Nb 2 - N6N4 3 L3Nb 3 - MN4 2 L3Nb 3 - NbN4 3 L3N6 3 -N6N44 L3Nb 4 - NbN4 3 L3Nb 4 - NIN4 4 L3W 2 - NlN4 2 L3U7 2 - NlN4 3 L3Nt 3 - NlN4 2
L3NT 3 - N7N4 3 L3Nt 3 - NlN4 4 L3hl 4 - NlN4 3 Llkl 4 - NlN4 4 L3Nl 4 - NlN4 5 L3hl 5 - NlN4 4 L3h7 S - NlN4 5 L3lu 1 - MN5 2
11301.58 11300.05 11291.93 11300.05 11301.36 11309.48 11311.36 11313.79 11288.65 II291.09
70.30 68.77 60.65
;5*70;: . 78.20 80.08 82.51 31.37 59.61
11911.60 73.09 13759.23 80.28 11916.13 71.62 13758.00 79.05 11967.38 63.01 13748.34 69.39 11976.13 11.62 13758.00 79.05 11911.36 12.85 13758.97 80.03 11985.91 81.40 13168.63 89.69 11987.52 83.01 13769.13 90.19 11990.08 85.56 13772.00 93&b 11964.02 39.30 13143.17 64.82 lL966.57 62.06 13146.64 67.69
11293.20 11304.41 11306.58 11302.98 11285.06 11281.45 11245.76 11241.31 11244.13 11239.68
61.92 73.19 15.30 il.70 53.78
:x . 10.03 12.85
6.kO
11968.79 64.28 1198o.43 75.92 11982.63 78.14 11918.86 74.35 11960.36 55.85 11956*58 52.06 11919.98 15.47 11915.34 10.83 11918.27 13.76 119l3.63 9.12
70.18 62.66 85.17 80.92 61.06 56.81 20.18 23.60
9.64 4.34
11235.89 11252.Ol 11236.54 11252.66 11245.35
: :ga* :t . 11240.33 11240.92 11245.25
4.61 11909.15 5.24 20.73 11926.54 22.03
5.26 11910.44 5.92 21.38 11927.23 22.11 14.07 11919.51 14.99
6.56 11911.61 7.10 4.14 11909.72 5.21 9.07 11914.22 9.10 9.64 11914.86 10.35
13.91 11919.36 14.85
13749.13 13761.63 13764.12 13159.87 13740.01 13735.75 13707.13 13702.63
:;%::':x .
13685.83 13704.36 13b66.61 13705.12 13696.32 13687.34 13605.30 13690.23 13b91.11 13696.04
6.90 25.41
7.67 26.16 17.37
8.40 b.36
11.26 12.17 17.09
11240.78 11240.35 11235.68 11233.24 11241.94 11240.13 11241.93
: ::i;$i . 11235.66
9.50 11914.71 9.07 11914.22 4.60 11909.57 1.96 119%. 96
10.66 11916.04 0.65 11914.12
10.65 11916.03 8.63 11913.90
10.10 11915.44 4.38 11909.41
10.20 9.10
::z 11.53
9.61 11.51
9.39 10.93
4.90
13690.94 11.99 13690.23 11.28 13685.13 6.18 13682.62 3.61 13692.66 13.71 13690.41 11.52 13692.64 13.69 13690.22 11.27 13691.91 lZ.9b 13685. t3 6.A8
11237.13 5.85 11910.95 11240.83 9.55 11914.80 11239.54 8.26 11913.30 11243.24 11.96 11917.33 11237.65 6.37 11911.52 11239.36 8.10 11913.27 11233.79 2.51 11907.43 11225.96 -4.32 11899.42 11238.00 6.72 11912.09 11225.22 -6.06 11898.61
6.43 10.29
1kE 7.01 6.16 2.92
-5.10 7.58
-5.90
13b86.82 7.87 13691.07 12.12 13689.72 10.77 13693.91 15.03 13661.53 8.38 13669.33 10.38 13682.89 3.94 13674.44 -4.51 13688.61 9.66, 13613.47 -5.48
11237.27 5.99 11911.28 6.77 11229.07 -2.21 119o2.70 -1.81 11236.79 5.31 11910.75 6.24 l1228.59 -2.69 11902.17 -2.34 11241.73 10.45 11915.91 11.40 11229.41 -1.87 11903.08 -1.43 11242.55 11.27 11916.82 12.31 11230.78 -0.50 11904.47 -0.w 11233.66 2.38 11907.52 3.00 31229.91 -1.31 11903.31 -1.00
13b87.64 :3g5;.;‘:
. 13677.54 13692.67 13618.64 13693.77 13680.03 13683.47 13678.87
a.70 -0.77
Lab -1.41 13.72 -0.31 14.82
I .OB 4.52
-0.08
11232.79 11235.30 11232.57 11235.15
%fEb . 11230.37 11311.64 11304.13 11305.04
1.51 11906.55 2.64 13682.31 3.36 4.09 11909.28 4.77 13605.30 6.43 1.29 11906.31 1.80 13682.02 3.08 3.67 11909.03 4.32 13685.09 6.14
-1.51 11903.35 -1.16 13678.68 -0.26 4.47 11909.69 5.18 13685.81 6.92
-0.91 11964.01 -0.50 13679.46 0.51 63.33 11990.24 66.23 13780.64 74.20 35.82 11982.44 58.43 13772.10 36.73
65.73 11983.39 59.39 13173.16 66.80
L3111 2 - MN5 2 L3nl 2 - nlN5 3 L3n2 i - HZNS 2 L3U2 2 - 112N5 2 L3B2 2 - MZNS 3 L3n3 0 - N3NS 1 L3)13 1 - n3NSl L3R3 1 - (UN5 2 L3n3 2 - 1uN51 L313 2 - ?43Nb 2 L3n3 2 - n3N5 3 L3nb 3 - n3N5 2
L3nf 3 - (ON3 3 L3n3 3 - 113NS 4 ~3~4 a - (YNS 1 L3114 1 - MN3 1 L3R4 1 - MN3 2 L3n4 2 - NW5 1 L3114 2 - N4N3 2
F. PARFiNTJ3 et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of ,sPt, soHg, 85At, and =Ra (in eV)
PLATINUN L-18 nE lltunr 2-80 ASTATINE 2105
::%‘I: 11317:31 11335.16
::z-z . 11315.43 11320.12 11320.47 11294.20
66.45 11993.59 69.58 13784.62 69.50
78.25 11906.76 72.73 13788.11 81.74
68.99 11996.23 12.22 13787.50 86.84
81.14 12014.11 90.10 13805.00 98.63
41.22 11966.85 42.84 13753.55 47.18 45.89 11971.73 47.74 13759.03 52.61 61.14 11993.72 69.71 13782.85 76.49 71.80 11998.61 74.61 13788.34 81.96 72.13 11998.97 74.% 13788.72 82.3b 43.89 11971.75 47.74 13759.03 52.67
11294.55 46.24 11972.10 48.10 13159.42 33.05 11293.60 45.29 11911.12 41.11 13738.35 51.98 11320.37 72.25 11999.18 75. Al 13789.21 82.84 11320.33 72.01 11998.92 14.92 13788.89 62.52 L1322.62 74.31 L2001.33 17.32 13791.57 85.20 11316.68 62.36 11988.91 64.90 13778.00 71.63 11312.97 64.65 11991.31 61.30 13780.68 74.31
See page 387 for Explanation of Tables
429
RAOILM Z-08
ENERGY SHIFT
14891.73 84.80 14890.63 83.70 14083.28 73.35 14690.63 83.70 lrdP1.16 84.53 14901.82 94.88 14YOI.YZ 94.98 14904.98 98.03 148 13.35 68.42 14678.42 71.48
1468L.08 74.14 14u94.15 07.22 14dYb.81 89.88 146P2.27 85.34 14671.4Y 64.56 14066.95 60.02 148Lb.99 20.06 I4U11.bO 14.66 14624.94 18.01 14119.55 12.62
14015.33 8.40 14634.89 27.95 l,d16.12 9.22 14835.71 28.70 I4dZb.17 19.24 14816.56 9.63 I4614.43 7.50 14619.61 12.60 IS820.42 13.69 I4625.60 18.87
lk620.43 13.50 14UlY.bl 12.68 14d 14.24 7.31 i4dll.&O 4.67 rra22.41 15.48 14u20.05 13.12 14022.40 15.46 14819.79 12.86 14821.58 14.65 lIILl4.3A 7.38
148Lb.10 9.11 14tuo.59 13.66 14d19.23 12.30 1462A.72 lb.79 14616.01 9.98 w3La.71 11.78 i46ri.90 4.97
wf.:: . -3.69 11.36 1*00&.16 -4.77
14dl7.21 10.28 14607.24 0.31 14816.50 9.51 14606.53 -0.40 14822.45 13.52 ~4607.75 0.02 14613.68 16.75 A4bo9.u 2.19 I4Ol2.1)0 5.87 L464 7.83 0.90
L46LL.5L 4.58 L4614.17 7.04 14011.19 4.26 A4bL4.40 7.33 14bO7.63 0.70 i4815.31 a.38 lWO8.4B 1.35 14919.39 ?Y 23 14910.37 70.20 14911.50 71.34
14913.75 83.58 14927.44 87.28 14926.80 86.64 lCYS4.14 103.96 14890.12 49.93 lC695.96 55.80 1+92U.93 00.77 14Y26.78 86.62 I492 i.LU 87.01 l4695.96 55.80
14696.36 56.20 14895.24 35.00 14927 .us 8T.bT i4927.46 87.30 14930.32 90.15 149lb.Oi 75.85 I49plbl.M. 78.70
430
lR*hSITIW ENERGY SHIFT ENERGY SHIFT ENERGY SHIFT EN&RGY SHIFT
L3M4 2 - MN5 3 L3M 3 -MN52 13114 3 - msns 3 L3M4 3 - Mm5 4 L3M5 1 - NSNS 0 L3l3 1 - nsN5 1 L3J45 I - IINS 2 L3M5 2 - NSNS 1 t.3115 2 - MSM 2 L3MS 2 - IISNS 3
L3MS 3 - llSN5 2 L3M5 3 - N5N5 3 L3)IS 3 - NSNS 4 13n5 4 - USN5 3 I.3115 4 - HSNS 4 L3114 4 - MSNS 5
:zt : I ,“:I; f
L3N1 2 - NLNS 3 L3N2 1 - YZNS 2
L3N2 2 - NZNS 2 L3N2 2 - N2N5 3 L3N3 0 - lull5 1 L3N3 1 - 83kS 1 L3N3 1 - R3N5 2 L3N3 2 - h3N5 1 L3N3 2 - N3NS 2 L3N3 2 - w3N5 3 L3N3 3 - N3NS 2 L3N3 3 - h3NS 3
11314.99 11322.39 11324.41 11320.98
::‘3:t%i . 11325.31 11312.05
::3;:-:: .
11316.06 11327.97 11319.03 ;:3;;.;;
. 11304.62 11256.45 11254.82 11261-39 11260.46
66.61 11993.42 69.42 13183.04 76.68 14921.30 74.08 12001.09 11.08 13191.31 84.95 14Y~0.05 16.10 12003.21 19.20 13193.68 87.32 14Y32.57 12.61 11999.61 75.60 13789.66 83.29 14928.29 b9.93 11996.31 72.31 13184.13 18.37 A4YZ2.60 86.44 12013.72 89.11 13804.21 97.85 14943.39 71.01 12003.87 79.87 13193.16 06.79 14931.60 43.74 11990.22 66.21 13118.84 72.48 14916.83 54.36 11950.31 M.36 13761.19 61.43 14905.04 66.21 11992.87 68.86 13181.81 15*44 I4919.9(1
81.22 89.09 92.41 88.12 82.44
103.23
;i-:t . 64.d8 79.82
67.15 11994.23 10.22 13782.70 lb.42 14920.78 80.61 19.66 12006.13 82.12 13796.00 90.43 1~Y35.12 95.56 70.12 11997.35 13.34 13786.2U 19.92 14924.5L 84.34 58.13 11934.44 60.44 13772-68 66.32 149lO.40 70.24 49.20 11975.06 51.06 13762.17 53.80 14099.19 59.02 56.31 11982.53 58.52 13710.55 64.19 14908.13 61.97
8.14 11932.81 8.86 13127.95 21.59 l’rb152.b7 12.51 6.51 11931.16 1.15 13108.81 2.45 14t)50.62 10.46
13.01 11937.99 13.99 13716.33 9.97 14158.56 18.40 12.14 11937.09 13.09 13121.99 15.63 L4La51.83 17.61
11261.10 12.19 11258.38 10.07 11254.81 6.49 11245.48 -2.84 11259.12 10.81 11250.38 2.01 11264.02 15.71 11254.05 5.74 11259.12 10.81 11249.15 0.84
11931.18
:::g*:; Uo’;;:,‘:
11926: 41 11940.66 11930.30 11935.51 11925.16
13.17 13122.76 16.40 lcolSB.66 18.50 10.93 13719.64 13.28 14155.31 15.21
1.11 13115.15 8.79 14d50.40 10.23 -2.67 13704.13 -2.23 14WU.65 -1.51 11.51 13719.6? 13.31 14t35s.01 14.85
2.47 13109.95 3.58 14tf44.84 4.68 16.65 13125.49 19.12 14&tbl.20 21.04
6.30 13714.11 7.81 14849.30 9.14 11.51 13119.67 13.31 14d55.01 14.05
l-A5 13108.36 1.99 14043.lA 2.95
L3N3 3 - N3N5 4 L3N4 0 - N4NS 1 L3N4 1 - MN5 1 L3N4 1 - MN5 2 L3N4 2 - N4N5 1 L3N4 2 - NINS 2 L3N4 2 - N4N5 3 L3N4 3 - N4N5 2 L3N4 3 - MN5 3 L3N4 3 - N4NS 4
L3N5 1 - NSNS 0 L3NS 1 - WSNS 2 L3N5 2 - NSt(5 2 L3N4 3 - N5NS 2 L3NS 3 - NSNS 4 L3h5 4 - hSN5 4 L3N6 1 - N6N5 0 L3N6 1 - N6N5 I L3N6 1 - NbNS 2 L3Nb 2 - N6N5 1
L3N6 2 - WN5 2 L3N6 2 - NbNS 3 L3Nb 3 - hbN5 2 L3N6 3 - ~6~s 3 L3ub 3 - Mu5 4 L3N6 4 - MN5 3 L3N6 4 - MU5 4 L3N6 4 - UbNS 5 L3Nl 2 - N7NS 1 L3Nl 2 - NlNS 2
L3N7 2 - NlWS 3 L3N7 3 - NlNb 2 L3N7 3 - NW5 3 L3Nl 3 - NlN5 4 L3N7 4 - hlN5 3 L3Nl 4 - NlNS 4 ON? 4 - NlN5 5 L3Nl 5 - NlN5 4 L3N7 5 - NlN5 5 L3Nl 4 - NlNS 6
L3Nl 1 - MN6 2 L3Nl 1 - NlN6 3 L3Nl 2 - NlN6 2 L3Nl 2 - NlN6 3 L3N2 1 - N2N6 2 L3)lt 1 -1vN63 L3N2 2 - MN6 2 L3N2 2 - M2N6 3 L3N3 0 - )13Nb 2 L3N3 1 - MN6 1
L313 1 - N3N6 2 L3N3 1 - 113tb6 3 L3W3 2 - R3N6 1 L3N3 2 - WC16 2 LM3 2 - M3N6 3 L3n3 2 - IaN6 4 L3M3 3 - WjNb 1
P. PARJSNTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of &‘t, eoHg, &At, and &a (in eV) See page 387 for Explanation of Tables
PLAlrMJII L-16 MERCURY L=80 ASTAT INE 2185 RAOlUN 2188
11265.22 16.90 11941.84 11.84 11255.69 1.38 11932.12 8.11 11255.58 1.26 11931.99 7.98 11257.05 5.73 11933.52 9.52 11253.16 5.44 11930.06 6.06 11255.23 6.92 11931.60 7.59 11258.93 10.61 11935.45 11.45 11251.03 6.72 11933.51 9.50 11260.73 12.42 11937.36 13.36 11255.14 6.62 11931.53 1.52
13126.58 13716.39 13116.23 13117.93 13714.04 13115.14
:3;:‘,-:‘3 . 13122. lb 13115.12
20.22 14862.21 22.11 10.03 14E5LUl 11.64
9.81 l*n)51.63 11.41 11.56 14653.42 13.26
1.68 i4a49.27 9.11 9.37 IW51.06 10.90
13.63 A4b55.55 15.39 11.55 14853.40 13.24 15.80 14051.89 17.73
9.36 A4n51.09 10.92
11249.19 11257.83 11253.58 11255.99 11259.C8
::t::-:: . 11247.11
: :;::-z: .
11250.22 11251.35 11249.74 11250-31 11252.29 11251.69 11253.12 11248.06 11241.45 11251.54
1.48 9.52 5.27 7.68
10.76 6.90
-0.14 -1.21
2.64 -1.94
1.93 10.31
5.82 8.37
11.58 7.50
-0.29 -0.16
3.29 -1.56
13709.46 13718.10 13113.61 13716.52 13120.06 13715.42
:;:“o;-;; . 13111.35 13705.06
3.09 14844.41 12.34 1w54. A8
7.25 lrn48.71 10.15 i4851.64 13.10 14d55.5(1
9.05 1ww.51 0.93 l*a4L.z* 0.46 I4BCl.tu 4.99 141)4b.b2
-0.51 14dl40.74
4.25 14.02
8.54
::-46; . 10.41
2.12 1.66 6.46 0.58
1.90 3.03 1.43 2.55 3.98 3.38 4.80
-0.26 -6.86
3.23
11925.93 11934.31 11929.82 11932.37 11935.59 11931.50 11923.12 11923.25
: ::fX-it .
11926.49 11927.68 11925.96 11927.15 11928.66 11928.06 11929.51 11924.23 11911.26 11927.88
2.48 3.68 1.96 3.15 4.65
4:: 0.22
-6.75 3.81
13710.38 4.02 14045.55 5.38 13111.13 5.37 14646.98 6.82 13109.15 3.39 14644.83 4.67 13111.09 4.73 I4a4b.21 6.11 13712.18 6.42 14648.01 7.90 13712.19 5.83 14841.50 1.34 13113.88 1.51 l4ll4Y.29 9.13 13101.86 1.50 14042.80 2.12 13700.01 -6.36 lti34.50 -5.bb 13111.09 5.53 i4847.ii 6.95
11246.11 -2.21 11922.19 -1.31 13705.63 -0.13 14d40.53 0.37 11250.67 2.36 11926.92 2.91 13710.74 4.31 i4tl45.02 5.66 11245.23 -3.08 11921.23 -2.78 13704.40 -1.89 141X39.24 -0.92 11256.89 8.51 11933.44 9.44 13118.00 11.63 lra53.51 13.35 11245.01 -3.31 11920.98 -3.02 13704.19 -2.17 14836.93 -1.23 11256.66 8.35 11933.20 9.19 13717.71 11.35 A4d53.19 13.03 11244.29 -4.03 11920~26 -3.15 13103.4b -2.90 14838.21 -1.96 11251.21 8.95 11933.86 9.85 13118.48 12.12 14ti54.US 13.88 11244.89 -3.42 11920.92 -3.09 13104.24 -2.13 I4839.06 -1.10 11259.31 11.06 11936.03 12.02 13120.18 14.42 ~4it56.41 16.25
;:;;;.9yo .
11551.39 11550.11 us~f.;;
.
::w: . 11534.08 11531.11
66.02 12252.55 68.66 64.13 12251.16 61.26 58.51 12244.76 60.86 57.22 12243.36 59.47 66.16 12253.34 69.45 69.64 12256.46 72.57 69.81 12256.51 12.62 72.69 12259.63 75.74 92 .OO 12278.96 95.01 44.23 12229.42 45.52
14080.44
:t:;:- z 14070:23 14081.40
:%:-:go . 14008.59 141o1.52 14053.45
16.02 A5L41.81 74.36 ~5240.00 61.48 15232.19 65.81 15L30.91 16.99 15242.91 80.69 1524b.93 80.48 15246.60 84.18 15250.63
103.11 15269.4L 49.04 15212.51
11539.2b 46.38 11141.97 49.09 11563.03 10.14 11565.11 12.29 11567.88 15*00 11563.59 10.11 11531.11 44.23
12231.10 12234.63 12256.28 12258.51 12261.49
41.11 1405b.01 51.66 15215.39 50.13 14059.53 55.12 15219.17 12.39 14082.16 18.34 lS243.39 74.61 14085.38 80.91 1SL46.21 71.60 14088.84 84.43 15249.98 12.97 14oo83.38 18.91 15244.04 45.52 14053.45 49.04 L5212.57
80.59 78.77 11.56 69.15 81.68 85.11 85.38 89.40
Y:x .
54.11 57.94 82.16 84.98 88.16 82.01 51.35
TRAASITION EYERGY SHIFT ENERGY SHIFT ENERGY SHIFT
L3M3 3 - IuNb 2 L3W3 3 - Mm6 3 L3113 3 - wN6 4 L3M4 0 - M4N6 2 L3n4 1 - mu6 1 0114 1 - M4N6 2 I.3114 1 - MNb 3 13114 2 - M4N6 1 L3W 2 - INN6 2 L3H4 2 - M4N6 3
L3M4 2 - M4N6 4 L3)14 3 -M4N6 1 L3M4 3 - H4N6 2 L3M4 3 - n4N6 3 L3M4 3 - M4N6 4 L3M5 1 - M5Nb 1 L3WS 1 - MSN6 2 L3MS 1 - MSN6 3 L3fiS 2 - MSM 0 L3115 2 - HSN6 1 L3M5 2 - M5N6 2 L3)1!i 2 - USN6 3 ~3115 2 - MSN6 4 L3M5 3 - MSN6 1 L3U5 3 - MSN6 2 L3U5 3 - ml@ 3 L3MS 3 - MS&b 4 L3WS 3 - MSN6 5 L3M5 4 - MSN6 2 L3W5 4 - Wit+6 3
11539.26 11541.91 11537.68 11571.61
::;;:-3; . llSb7.91 11554.90 11561.71 11556.26
46.38 12231.70 4r.01 14056.07 51.66 15215.39 54.17 49.09 L2234.63 50.73 14059.53 55.12 L5219.1T 57.94 44.80 12230.00 41.11 14054.08 49.66 1521s.22 51.99 76.73 12265.50 81.61 14o93.55 89.14 35255.33 93.90 71.67 12257.06 13.96 14084.42 80.01 lSL45.AI 83.08 70.48 12265.24 81.35 14093.23 88.82 16254.76 93.54 75.03 12211.46 77.56 14088.60 84.19 15249.03 88.41 62.02 12247.84 63.94 14073.53 69.12 15233.65 72.43 68.03 12255.22 71.33 14082.34 77.93 15243.31 82.08 65.38 12251.44 67.55 14077.71 73.30 15238.19 76.95
11563.76 70.67 11564.33 71.45 11371.14 76.26 11567.69 74.81 11573.18 80.30 11574.95 82.07 11577.77 84.69 11578.91 86.03 11551.82 58.93 11552.25 59.37
12257.47
::tz-:: 12261122 12267.25
:fft:% . mif- ;;
. 12244.97
73.57 14085.09 80.66 73.73 14084.17 79.75 81.11 14092.97 88.56 77.33 14oaa.35 83.94 83.35 14095.72 91.31 84.58 14095.20 90.78 67.63 14098.80 94.39 88.85 14100.22 95.61 60.63 14069.34 64.93 61.08 14069.83 65.42
11555.06 62.18 12248.02 64.12 14073.44 11556.21 63.32 12249.24 65.35 14o74.86 11557.12 64.24 12250.24 66.34 14076.05 115b5.43 72.75 12258.83 74.94 14094.02 11566.44 75.56 12261.87 77.98 14006.43 11569.59 7b.70 12263.10 79.20 14089.85 11570.51 71.62 122b4.09 80.20 14091.04 11566.79 73.91 12260.06 76.19 14086.30 11546.92 54.04 12239.59 55.69 14064.31 11548.06 55.18 12240.81 56.92 14065.73
14066.92 l*o62.l8
:2",2"1-'9; . 14O11.5b 14008.76 14015.49 14022.19 14016.26 14022.96
69.02 70.4s 71.64 80.41 84.02 85.44 86.63 81.89
2:':: . 62.51 57.77 26.29 23.49
7.15 4.35
::-;o . 11.84 18.55
13W5 4 - USN6 4 L3M5 4 - USN6 5 L3Nl 1 - hlN6 2 L3Nll - NlNb 3 L3N1 2 - NlN6 2 L3Nl 2 - hlNb 3 L3N2 1 - N2N6 2 L3k2 I- N2Nb 3 L3N2 2 - N2N6 2 L3N2 2 - N2N6 3
L3N3 0 - U3N6 2 L3M3 1 - N3N6 1 L3N3 1 - N3N6 2 L3N3 1 - N3N6 3 L3N3 2 - NW6 1 L3N3 2 - WN6 2 L3N3 2 - N3N6 3 L3N3 2 - N3N6 4 L3N3 3 - N3N6 1 L3N3 3 - N3N6 2
L3N3 3 - N3N6 3 L3N3 3 - N3Nb 4 L3N4 0 - N4Nb 2 L3N4 1 - N4N6 1 L3N4 1 - NCN6 2 L3N4 1 - N4N6 3 L3N4 2 - WN6 1 L3N4 2 - MN6 2 L3U4 2 - wN6 3 L3N4 2 - k4N6 4
L3N4 3 - N4N6 1 L3N4 3 - N4N6 2 L3N4 3 - N4Nb 3 L3N4 3 - N4Nb 4 L3NS 1 - NSN6 1 L3hS 1 - WSN6 2 L3N5 1 - NW6 3 L3NS 2 - N5N6 0 L3N5 2 - NSNb 1 L3NS 2 - NSN6 2
L3NS 2 - NSNb 3 L3NS 2 - N5U6 4 L3N5 3 - NSN6 1 L3N5 3 - NSNb 2 L3NS 3 - NSN6 3 L3N5 3 - NSNb 4 L3N5 3 - NSNb 5 L3N5 4 - M& 2 L3N5 4 - N5Nb 3 L3N5 4 - NSW 4
L3N5 4 - &5Nb 5 L3hb 1 - h6Nb 2 L3Nt. 2 - lumb 0 L3N6 - i3N6
2 NbN6 2 - NbNi
2 4
LPN6 3 - NbNb 2 L3N6 3 - N6N6 4
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies df ,#t, soHg, =At, and @Ra (in eV)
PLATI hUH t=7e MERCURY Z-80 ASTAIINE 2-85
11548.96 11545.27 llSO5.85
::;xi'~B . 11501.87 11501.92 11507.55 11502.sb 11508.20
56.10 12241.81 57.91 52.39 12237.80 53.90 12.97 12197.5b 13.66 10.62 12195.07 11.18 11.34 12195.85 11.95
8.99 12193.36 9.47 9.03 12193.47 9.57
14.67 12199.41 15.52 9.60 lZL94.15 10.26
15.32 12200.09 16.20
11508.68 15.79 12200.46 16.57 11497.52 4.63 12188.74 4.85 11499.35 6.47 12190.68 6.79 11502.75 9.87 12194.25 10.35 11502.42 9.54 12193.80 9.99 11504.25 11.37 12195.82 11.43 11507.65 14.77 12199.39 15.50 11502.32 9.44 12193.79 9.89 11497.52 4.63 12188.74 4.05 11499.35 6.47 12190.68 6.79
y,'.;; .
14012.03 14016.00 14015.64 14017.85 14021.81 14015.56 14009.83 14012.03
18.64 5.42 7.62
11.59 11.23 13.43 17.40 11.14
5.42 7.62
11502.75 11491.42 11507.22 k1495.05 11507.10 11498.90 11493.24 11505.28 11497.08 11510.22
9.67 4.54
14.33 2.17
14.22 6.02 0.35
‘;5-2 . 17.34
12194.25 10.35 14016.00 11.59 12188.65 4.75 14009.74 5.33 12199.07 15.18 14021.73 17.32 12186.27 2.37 14007.40 2.99 12198.94 15.05 14021.58 17.lb 12190.36 6.47 14012.11 7.70 12164.34 0.45 14005.21 0.80 12197.02 13.12 14019.38 14.97 12188.44 4.55 14009.92 5.51 12202.1r 18.26 14025.05 20.64
11495.04 11507.06 11498.88 11512.02 11500.54 11504.39 11505.51 11496.75 11496.29 11500.14
2.16
T20: . 19.14
7.bb 11.50 12.63
3.87 3.41 7.26
12186.25 12198.92 12190.35 12204.08 12192.02 12196.07 12197.26 12188.00 12187.53 12191.56
2.36 15.03
6.45 20.19
8.13 12.17
xi . 3.63 7.68
14007.38 14021.56 14012.09 14027.22
:xII 14019: 64 14009.15 14008.68 14013.21
2.97 17.15
7.68 22.81 9.36
13.89 15.23 4.74 4.27 8.80
11501.26
::::t:x 11502:55 11503.66
::;:x 11495:b9 11499.52 11501.24
8.38 9.81 5.82 9.67
10.79 12.22
7.16 5.81 6.93 6.36
12192.77 12194.27 12190.08 12194.13 12195.32 12196.82 ;;;a.;~
. 12191.23 12192.73
0.87 10.37
b.UJ 10.23 11.42 12.93
7.59 6.15
872
14014.55 10.14 14016.24 11.83 14011.58 7.17 14OoL6.11 11.70 14017.46 13.04 14019.14 14.73 14013.13 8.72 14011.46 7.05 14012.81 8.40 14014.50 10.08
11496.18 3.30 11494.01 2.13 11486.79 -b-O9 11494.27 1.39 11497.22 4.33 11493.79 0.91 11496.74 3.0b
Ma:.:;
12177:58 12185.59 12188.75 12185.07 12188.22
3.50 14008.48 2.51 14007.88
-6.31 13997.bO 1.70 14001.91 4.65 14010.56 1.17 14006.27 4.33 14009.92
4.07 3.47
-b-81 2.50 6.15
See page 387 for Explanation of Tables
431
RADIUM ii-66 ENEAGY SHlFT
15L46.36 85.14 15244.64 83.61 15254.49 93.27 15249.37 88.14 15257.55 96.32 15216.2> 95.02 r5Z60.lY 98.96 15261.73 100.50 15229.18 b7.95 IIZZY.6Y 68.46
15233.63 72.40 15235.17 73.94 15236.47 75.25 15245.43 04.20 L5249.37 00.14 15250.90 09.68 I5.!52.LA 90.98 li1247.04 85.81 b224.05 62.82 lYsL5.5t) 64.36
15226.89 65.66 1SLL1.72 60.49 15110.39 17.17 15iT5.41 14.18 15176.35 15.12 15173.36 12.13 15173.74 12.51 li180.88 19.66 15174.54 13.34 15101.11 20.49
15181.57 20.34 AS167.46 6.24 15169.93 6.60 15174.02 12.80 15L73.bS 12.42 15176.01 14.79 i5180.2i l(r.98 15i73.56 12.35 121b7.4b b.24 12109.83 8.60
15174.02 12.80 15167.39 6.16 15180.30 19.07 15165.00 3.u5 15IPO.lL 18.90 15170.15 6.93 ASlbL.71 1.49 13177.76 16.54 15167.79 6.56 15183.11 22.49 lSlbS.Ob 3.63 15160.11 18.88 15A70.13 a.91 15106.06 24.03 A5171.81 10.58 15176.61 15.39 15A71.05 lb.63 151bb.79 ~5.56 12166.33 5.11 15171.14 9.91
15172.56 11.35 0174.37 13.14 lSib9.46 8.23 15174.27 13.04 15115.71 14.48 lLi177.50 16.27 15111.09 9.06 15L69.25 8.03 15L70.69 9.47 15172.49 11.26
1516b.06 4.65 15195.1s 4.50 15154.58 -b.b4 15ib4.65 3.42 L5168.59 7.36 151b3.94 2.71 ISlb7.86 6.65
432
TRAhSITIDW EAERW SHIFT ENERGY SHIFT ENERGV SliiFT ENERGY SHiFl
L3h6 4 - Nbw 2 L3Nb 4- Mb4 L3Nl 2 - N1Nb 1 LON7 2 - Nmb 2 L3Nl 2 - NtN6 3 UN7 2 L3Nl 3 ‘I *
mm& :
L3N7 3 - NtN4 2 LlN? 3 - NtNb 3 LfN? 3 - N7W 4
L3Nl 3 - NtNb 5
t3:: t - - NTN6 NlW 2 3
:z::: f - - N?Nb NlN6 4 5 L3N1.4 - NlW b L3N7 5 - NlNb 3 L3Nl 5 - NtUb 4 L3k? 5 - NtNb 5 L3Nl 5 - NtN6 6
L3M1 1 - Ml117 3 L3Hl 2 - Ml117 3 L3Wl 2 - MlNt 4 L31(2 1 - WNt 3 LJll2 2 - M2Nt 3 L3M2 2 - IUW? 4 L343 0 - MN7 2 L3113 1 -1(3((72 L3M3 1 - 113Nt 3 L3M3 2 - 13111 2
L3M3 2 - WNt 3 L3113 2 - U3N7 4 L3R3 3 - mu7 2 L3113 3 - I(3Wl 3
11494.62 1.74 i2ias.96 11497.S6 4.ba 12la9.13 11491.09 -1.79 121a2.20 11493.11 0.23 12164.36 11496.61 3.73 1216&11 11496.84 3.96 12laL3s 11490.22 -2.66 12161.24 11492.24 -0.64 '12163.40 11495.74 2.06 i2iai. is 11495.91 3.09 12167.39
2.08 5.24
-E 4:21 4.45
-2&b -0.50
3.23 3.49
14007.31 2.96 15165.16 3.94 14611.02 b.61 15169.10 1.W 14602.96 -1.45 15160.37 -0.85 lWOS.47 1.05 15163.08 1.85 14009.al 5.40 15161.71 6.54 14010.08 5.61 ~5168.06 6.83 14ool.al -2.61 15~59.08 -2.14 14604.31 -0.10 15161.79 0.56 14008.65 4.24 15166.40 5.25 14006.93 4.31 15166.11 5.54
11497.25 4.36 11492.01 -0.87 11495.52 2.63 11495.74 2.3b 11491.02 4.14 11491.46 -1.40 11496.12 3.24 11496.35 3.4b 11491.b3 4.74 11492.08 -0.80
:::t:*:t 12la6:90 12167.14 1216a.51 i2ia2. sa 121a7.56 i2iat. 80 12169.1r 121a3.24
4.86 -0.14
3.01 3.25
-::: 3.61 3.91 5.26
-0.66
14010.52 14004.02 14006.37 14008. b4 14010.23 14003.3s 14009.14 14009.41 14011.01 14004.12
b.11
-x . 4.23 5.62
-1.07 4.13 5.00 4.60
-0.29
lSL66.49 7.21 IS161.41 0.25 15166.L6 4.94 15iOb.4~ 5.23 153168.19 6.99 15160.73 -0.49 15167.01 5.79 15167.30 6.08 15169.03 1.00 1516L.59 0.36
11%0.97 11553.46 11554.13 11564.77 11567.81 1lS67.66
::;:t*z: . 11544.39 11564.32
64.68 12255.14 67.22 57.17 12247.34 59.42 58.83 12249.15 61.22 0.47 12259.24 71.31 71.52 12262.41 74.48 70.77 12261.60 73.67 aa. i227a.94 91.02 42.62 12231.68 43.76 48.10 12237.b2 49.69 63.53 12258.55 70.62
14.36 15241.97 65.81 LS2A6.94 67.96 15241.20 19.21 15253.36 82.75 L5251.05 81.79 15256.0~ 90.31 15Lr2.2L 46.93 152~8.20 53.96 is225.88 16.23 152*9.oL
70.30 69.16 72.12 64.19 01.89 06.65
‘“/%*“,t 5b:ll 79.85
11570.31 14.02 12264.48 76. sb llsb9.62 13.33 12263.70 7s.ta US38.91 42.62 12231.68 43.76 11544.39 48.10 12237.62 49.69 11543.10 47.41 12236.64 4B.91 lls44.47 48.18 12237.14 49.81 11571.01 ?4.16 12265.21 17.35 11570.a3 74.54 12265.01 77.09 11573.35 77.06 12261.72 19.79 11561.18 64.89 12255.00 67.07
140085.04 14016.49 14078.63 14089.94 14093.43 ;+09~.;;
.
::i:*:: 14086:91
14093.94 14o92.94 14051.60 14064. b4 14Ob3.64 14064.81 14094.63 14094*51 14097.67 14063.62
a3.2i 15256.69 81.53 62.26 A5;L55.50 86.40 46.93 15218.20 49.04
.53.96 15225.88 56.71 52.96 15224.14 55.58 54.19 15220.16 51.02 84.15 15251.b6 88.50 83.83 15251 .a0 88.13 06.99 18260.11 91.55 72.94 15245.84 lb.68
~3113 3 - 11317 4 L3W3 3 - M3Nt 5 LU14 0 - I)SNt 2 LM4 1 - MN? 2 ~3m4 I - 4N? 3 L3114 2 - ll4Nt 2
L3II4 2 - MN? 3 L3U4 2 - MN? 4 L31(4 3 - MN7 2 L3U4 3 - h4Nt 3 L31(4 3 - MN? 4 i3n4 3 - Ljms
n4nt i - 147
5 i
L3MS 1 - IIsNt 2 L3)15 1 - NSN? 3 L3MS 2 - 11SNt 1
L3US 2 - WSNt 2 L3(15 2 - (UN? 3 L3MS 2 - MINT 4 L3MS 3 - MN? 1 L3MS 3 - MN7 2 L3M 3 - USN7 3 L3RS 3 - USN7 4 L3115 3 - MN? 5 L-5 4 - MSN? 2 &s 4 - IliNT i
L31(5 4 - USN? 4 L3US 4 - MN7 5 LU(s 4 - 11511 6 ~Wll 1 - NlNt 3 L3N1 2 - UAW7 3 L3Nl 2 - NlN? 4 L3N2 1 - UN? 3 L3NP 2 - r**t 3 L3N2 2 - UN? 4 L3N3 0 - N3Nl 2
L3M3 1 - Ntllt 2 L3N3 1 - ll3Nt 3 L3N3 2 - WY7 2 L3N3 2 - N3N7 3 L3N3 2 - N3Nt 4 L3N3 3 - N3Nt 2 UN3 3 - N3Nt 3 L3N3 3 - N3Nl 4 L3N3 3 - h3Nl 5 L3N4 0 - WN7 2
L3N4 1 - MN7 2 L3W 1 - WN? 3 L3N4 2 - WNt 2 L3N4 2 - N4Nt 3 L3N4 2 - MN7 4 L3N4 3 - N4nt 2 L3N4 3 - N4Nt 3
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Bay Satellite Energies of ,*Pt, eoHg, =At, and &a (in eV) See page 387 for Explanation of Tables
PLATINDM Z-18 neRcuRY z-e0 ASTAT INE Z-85 RADI DM Z-W
11563.70 11565.32 11570.60 11513.12 11574.14 11511.17 11575.86 llSal.52 11519.51 11553.1b
67.41 69.o3 74.31 76.03 10.45 74.88 79.57 05.22
Eff .
b2.52 60.52 66.79 70.25 15.90 73.90 80.18 13.00 54.38 52.30
12257.10 12239.4b 12264.70 12267.49 12269.24 12265.38 12269.80 12275.94 12213.13 12246.29
15249.26 80.10 lSL5l.SA 02.35 1>ZS?.O3 01.67 15260.44 91.26 1526L.lU 93.54 15227.7b 88.60 15260.70 91.54 lSZbO.lY 99.63 1526S.71 96.55 15234.14 64.98
11sse..a1 11556.01 11563.09 11566.H 11572.19 11570.19 11576.47 11570.10 11550.67 lls4a.6?
12252.44 122so.22 122St.Ob 12260.1s 122bb.29 122b4.08 12210.92 12263.96 12244.01 12241.79
69.111 11.53 16. as 79.56 81.31 77.4b 81.07 88.01
E’f; . 64.51 62.30 69.14 12.23 l&3? 16.15 82.99 lb.03 56.01) 53.81
14086.78 14088.65 14094.26 14091.41 14099.48 14094.94 14098.26 14105.62 Ml;g.",;
.
14OEO.2b 14077.50 14085.74 14oa7.m 14095.25 14O92.49
:::82”*3: . 14011.14 14066.38
76.10 78.17 83 .sli 86.73 88.80 84.26 at.58 94.9s
x’,=:: .
69.58 66.62 75.06 21.21 84.51 61.31 90.05 81 .b3 60.4b 57.70
15242.23 73.01 15239.15 69.99 15248.22 79.06 15249.06 80.71 15257.91 88.81 15254.a8 85.12 15L63.96 94.80 15254.66 85.50 AM32.65 63.49 15229.~b 60.40
11554.9s liS4a.57 11554.93 11506.28 11504.b4 llSO?.?b usoa.23 iisoa.aa ::EfX . 11497.48 11504.91 llSO2.36 llSO9.81 iisoa.05 11491.48 11504.91 11sa3.15 llSOS.a9 11503.19
58.65 52.20 sad
9.98 a.35
11*4? 11.93 12=50 10.97 10.51
12248.63 12241.67 12246. bt 12196.43
:2z- Xf
::&: 12199:54 12196.93
b0.71 14076.62 65.94 15238.64 69.46 53.75 140010.19 57.51 15229.34 60.17 60.14 14076.78 66.10 15236.89 69.73 10.11 14033.43 22.7s 151(rP.S1 13.41
8.79 14014.29 3.61 15180.53 11.36 12.09 14Ola.02 7.34 15164.50 15.34 12.b4 14025*25 14.51 151dS.+L lb.26 13.32 14026.02 15.34 U186.25 17.09 11.62 14024.09 13.41 15U4.LO 15.02 11.01 14023.10 12.42 L5L82.92 13.76
1.19 8.61 b.09
13.52
':*:: a:61 6.66 9.60 1.50
12169.15 1219b.91 12194.29 12202.AO 12200.27 12109.15 12196.96
:f:z- :i . 12195.91
1.22 9.O3
. 1%
':% 9:O3 7.20
10.05 7.99
1Ef 5.94 8.W
11.71 7.04
lo.a9
14012.06 i402o.ai 14011.89 M&Xt.tf
14O12:01 14O20.81 14018.81 14021.86 14019.99
1.40 10.13
7.22
:3-f: 1:ro
10.13 6.13
11.20 9.31
ibifi.la 2.02 15l00.42 11.26 15111.37 a.20 15AUb.61 17.45 15164.53 15.37 l!i1?1.18 2.02 15100.42 11.26 15178.34 9.18 15LYI.Sl 12.35 15179.75 10.59
llSO3.67 7.38 1219S.79 11506.56 10.27 12190.83 llsol.a6 5.56 12193.a6 11504.74 a.45 12196.91 11501.32 11.03 12199.63 11503.66 1.37 1219s.77 11506.54 10.25 12191.02
14019.83
:t”o:;-9: . 14021.08 14024.15 14019.82 14023.2b
9.16 ISl?Y.SL) 10.42 12.60 da3.2s 14.09
6.96 15171.22 8.06 10.41 15160.09 11.73 13.47 15lB4.16 15.00
9.14 L5i79.56 10.40 12.58 15163.23 14.07
TRAhSITloN ENERGY SHIFT ENERGY SHIFT ENERGY SHlFT
L3Nk 3 - N4N7 4 L3N4 3 - MN7 5 13N5 I - hSh7 1 L3)r5 1 - NSN7 2 L3N5 1 - N5N7 3 L3N5 i! - NSN7 I L3N5 2 - hSN7 2 L3N5 2 - USN7 3 L3N5 2 - N5N7 4 L3N5 3 - N5N7 1
L3N5 3 - h5N7 2 L3N5 3 - N5N7 3 L3N5 3 - NSN7 4 L3NS 3 - NSN7 5 L3N5 4 - hSN7 2 L3N5 4 - NSN7 3 L3N5 4 - NSN7 4 L3N5 4 - NSN7 5 L3h5 4 - hSN7 6 L3N6 1 - NhN7 1
LPN6 1 - N6N7 2 L3N6 i - N6N7 3 L3N6 2 - N6N7 1 L3N6 2 - N6N7 2 L3N6 2 - WNI 3 ~3N6 2 - WN7 4 L3N6 3 - NbN7 1 ~3N6 3 - U6N7 2 L3N6 3 - N6N7 3 L3N6 3 - WN7 4
::zx . u49a.68 11508.77
:::::*i: 11504:52 11499.08 11510.74 11496.84
12.83 12201.54 13.61 14026.32 15.65 7.45 12195.86 7.93 14019.92 9.24 2.39 12190.49 2.56 14013.60 3.12
12.48 12201.11 13.18 14025.60 15.00 7.04 12195.42 7.50 14019.42 8.74
-1.86 lZl%.OO -1.93 14OOB.71 -1.97 0.23 12196.62 0.69 14OZo.59 9.91 2.79 12190.93 3.01 14014.33 3.65
14.45 12203.14 15.22 12027.85 17.17 0.55 12199.55 0.62 14011.61 0.93
11506.93 10.64 12199.17 11.24 14023.49 12.81 11501.50 5.21 12193.48 5.56 14017.23 6.55 l1513.15 16.86 12205.70 17.77 14030.75 20.08 115OO.78 4.48 12192.76 4. a3 14016.51 5.83 11503.c7 6.76 12195.09 7.16 14016.85 8.17 11497.64 1.35 12189.40 1.47 14012.59 1.91 11509.29 13.00 12201.61 13.69 14026.11 15.43 li496.92 0.62 12188.67 0.75 14011.86 1.18 11511.40 15.10 12203.78 15.85 14028.41 17.73 11494.89 -1.40 12186.66 -1.26 14009.81 -0.87
11496.91 0.61 11500.41 4.12 11494.15 -2.14 11496.17 -0.12 11499.67 3.38 11499.90 3.61 11493.67 -2.62 11495.69 -0.60 11499.20 2.90 11499.42 3.13
121118.82
%-iJ i2laa:ol 12191.76
:f:tf’Sf . 12187.49 12191.24 12191.48
0.90 14Ol2.31 1.63 4.65 14016.66 5.98
-2.07 14008.84 -1.84 0.05 14011.34 0.67 3.94 14015.69 5.01 4.08 14015.96 5.28
-2.60 14008.20 -2.48 -0.44 14010.71 0.03
3.31 14015.05 4.37 3.55 14015.32 4.64
L3N6 3 - N6N7 5 L3N6 4 - N6N7 2 L3N6 4 - N6N7 3 L3N6 4 - k6Nl i L3Nt 4 - WN7 5 L3h6 4 - N6N7 6 LPN1 2 - N7N7 0 L3N7 2 - YIN7 2 L3N7 2 - N7N7 4 L3N7 3 - N7N7 2
L3N7 3 - N7N7 4 L3N7 4 - N7N7 2 L3N7 4 - N7N7 4 L3NT 4 - N7N7 6 L3N7 5 - N7N7 4 L3N7 5 - N7N7 6
F. PARENTE et al. L X-Ray Satellite Energies
TABLE II. L X-Ray Satellite Energies of J’t, wHg, &At, and ,Ra (in eV) See page 387 for Explanation of Tables
PLATI NW 2’70 nERCURY L-80 ASTATINE Z-85
11500.70 4.41 12192.85 4.92 14016.92 6.24 11496.52 0.23 121%.40 0.41 14011.80 1.13 115oO.02 3.13 12192.15 4.22 14016.15 5.47 11500.25 3.96 12192.39 4.46 14016.42 5.74 11501.53 5.23 12193.76 5.83 iwia.oi 7.33 11495.99 -0.31 12187.82 -0.10 14011.13 0.45 11489.63 -6.66 121a1.00 -6.93 14003.15 -7.53 11496.16 -0.14 izias.00 0.08 14011.30 0.62 11900.07 3.76 12192.19 4.27 14016.15 5.41 11495.28 -1.01 12187.04 -0.89 14010.14 -0.54
11499.20 2.91 12191.23 11495.06 -1.23 12186.79 11498.97 2.68 12190.98 11499.59 3.30 12191.65 11499.58 3.29 12191.64 11500.20 3.90 12192.31
3.30 -1.13
3% 3.72 4.38
14014.99 4.32 14009.85 -0.63 14014.71 4.03 14015.48 4.80 14015.40 4.80 14016.26 5.56
433 Atomic Data and Nuclear Data Tables, Vol. 26, No. 5, September 1881
UADlUN z=w
ENERGY SHIFT
15180.50 17.34 15L79.67 10.51 1517P.U 3.96 15185.72 16.56 b179.15 9.98 15167.64 -1.52 45180.25 11.09 15173.bl 4.51 15107.93 18.77 15170.17 1.61
15103.30 14.22 15176.L10 7.64 15191.06 21.90 15176.07 6.91 15178.37 9.20 15171.79 2.63 A5AU6.05 16.89 15171.06 1.90 lzB188.41 19.25 15160.99 -0.17
15171.70 2.54 UL76.39 7.23 15167.92 -1.25 151 IO.b.? 1.46 A5175.31 6.15 15175.60 6.44 15AbI.20 -1.96 151b9.9L 0.15 15174.60 5.44 15174.89 5.73
15176.61 7.45 15171.13 1.97 15175.82 6.66 15176.11 6.95 lS177.04 8.60 lt+370.40 1.23 L5r61.74 -7.42 15170.s5 1.39 15175.79 6.63 I$lLO.Zb 0.10
15174.50 5.34 15168.95 -0.21 LSA14.19 5.03 15175.02 5.06 i5175.04 5.u 15115.08 6.72
F. PARENTE et al. LX-Ray Satellite Ener@es
TABLE III. L X-Ray Satellite Energies of ,Th, &J, and &m (in eV) See page 387 for Explanation of Tables
TRANSITION
LlHl 0 - WIWZ 1 LlHl 1 - Ml&? 0 LlWl 1 - 111112 1 LlH2 1 LlM3 1 1 y& ;
LlU3 1 - M3#2 2 LlM3 2 - IoH2 1 LlH3 2 LlW4 1 I 2;; :
LlH4 1 - M4N2 2 LlH4 2 - MN2 1 t:;: 5 - - ~4N2 twl2 2 2
LlWS 2 - llSN2 3 LAN5 3 - NSN2 2 LlW5 3 - n5cu 3 LlNl 0 - NlM2 1 ::NN: : - - YlU2 YlM2 1 0
LlN2 0 - N2M2 1 LlN2 1 - N2M2 0 LlN2 1 - N2N2 1 LlN3 1 - h3)lt 1 LlN3 1 - N3M2 2 LlN3 2 - N3H2 1 LlN3 2 - N3MP 2 LlN4 1 - N4112 1 LlN4 1 - NW2 2 LlN4 2 - N4M2 1 LlN4 2 - N4U2 2
LlN5 2 - NSMt 2 LlN5 2 - NW2 3 LlN5 3 - NW2 2 LlNS 3 - N5M2 3 LlN6 2 - N6w2 2 LlNb 2 - NbW 3 ::,"i : - - NbM2 K6M2 3 2
Llh7 3 - h7112 3 LlN7 3 - N?lU 4 LlNl 4 - h7N2 3 LlN7 4 - N7M2 4 LlWl 0 - Nl113 1 LlNl 1 - MM3 1 LlHl 1 - 111113 2 LlM2 0 - 112113 1 LlM2 1 - M2H3 1 Llll2 1 - w2M3 2
::% : 1 g;; ;
LlI13 2 - N3M3 2 LlW4 1 - nrru 0 LlM4 1 - n4n3 1 LlM4 1 - N4N3 2 LlM4 2 - ll4n3 1 iinr 2 - N4N3 2
‘L::: f - - N4n3 NSM3 3 1 LlWS 2 - 115113 2 LlU5 2 - 115113 3 l.1115 3 - wsti 2 ‘,::: : - - llSN3 n5H3 4 3
LlNl 0 - NlM3 1 LlNl 1 - NM3 1 LlNl 1 - NM3 2 LlN2 O - N2N3 1 Llhi 1 - N2U3 1 LlN2 1 - N2W3 2 LlN3 1 - N3N3 0
LIN3 1 - N3M3 1 LlN3 1 - N3M3 2 LlN3 2 - ION3 1 LlN3 2 - N3H3 2 LlN3 2 - N3N3 3 LlN4 1 - N4N3 0 LlN4 1 - N4n3 1 LlN4 1 - MN3 2 LlN4 2 - N4M3 1 LlN4 2 - N4113 2
LlN4 2 - h4N3 3 LlNS 2 - NSM3 1 LlN!i 2 - NW3 2 LlN5 2 - NSN3 3 LlNS 3 - N5M3 2 LlN5 3 - h5113 3 LlN5 3 - NSN3 4
THOPIUN
ENERGY
15700.99 15603.56 15C60.74 15473.18
:;tg-:: H&':
. 15655.99 lS698.10 15664.22 15707.01 15602.60 15675.15 15611.14 15663.bl lSb5O=20 15643.09 15641.15 15652.29 15637.25 lSC53.25 15646.27 lSC44.97 15644.71 15643.41 15642.21 15644.61 lW43.92 15646.33 1564S.40 15644.72 15642.95 15642.27 156x. 11 lSb40.34 15636.21 15640.44 15630.02 15636.92 15637.89 15636.00 16461.88 16428.b3 16473.64 16476.74 16480.08 1646 9.83 16442.bS 164bt.W 16459.84 16462.57 16460.20 16471.87 16468.42 16480.09 16467.71 16446.22 16480.% 164SC.64 16469.42 16447.10 16402.66 lb433.17 16424.11 16428.05 lb431.25 16432.20 16430.75 16416.16
16435.56 16426.65 16434.00 lb425.09 16434.00 16424.60 16421.38 lb431.16 16429.09 16432.00
16420.73 16424.04 lb430.93 16431.33 16426.48
9.40 0.49 7.84
-1.07 7.84
-1.40 1.21 5.00 2.93 6.71
2.57 -1.32
4.77 5.17 2.31 2.72 1642lJ.8B
16427.73 1.56
Z-90 URANlUll L-92 ANEAICIUM L-95
SHIFT ENERGY SlilFT ENERGY SHIFT
60.51 43.08 20.26 32.69 42.88 30.83 35.81 23.75 15.51 58.30 23.74 b6.52 42.20 34.66 30.66 23.12
9.72 2.61 0.66
11.81 -3.23 12.76
5.79 4.49 4.23
:*l’: . 4.13 3.44 5.85 4.92 4.24 2.46 1.79
-4.30 -0.14 -4.20 -0.05 -2.46 -3.5b -2.59 -3.60 42.72
2.47 47.46 so.57 54.72 42.66 lb.49 40.76
33.68 36.41 34.04 45.70 42.26 53.93 41.55 20.06 54.80 32.47 43.26 20.93 56.50
7.00 -2.05
1.89 5.00 6.04 4.59
-10.00
16639.14 lbb20.58 16597.05 16610.27 16b2O.14 lb607.80 166l2.00
'It%- 2 1663b:19 16600.28 16644.56 16619.00
:tt;i-;S p;z:g
16510:70 16576.76 16580.52 lb572.75 16509.52 lbS02.10 16500.74 16580.46 16579.11 1b517.07 16580.39 16579.bS 16582.17
16581.14 lbS80.44 lb578.60 16577.90 16571.47 lb575.09 lb571.50 16576.00 lb573.60 16572.46 16573.47 16572.32 17502.36 17460.27 17506.55 17s 10~25 17514.56 17502.22 17474.48 17499.39 17492.05 17495.00 17492.60 17504.50 17500.97 17512.95
:‘7%-f: . 17513.47 174%. 57 17501.7b 1747&87 17515.33 17464.63 17455.00 17459.20 17462.b4 17463.64 17462.12 17446.04
63.41 44.05 21.32 34.54 44.41 32.07 31.07 24.73 16.18 60.46 24.55 68.83 43.35 35.57 31.64
f?IX 3:05 1.03
12.79 -2.90 13.79
6.37 5.01 4.74 3.38 2.15 4.66 3.92 6.44
5.41 4.11 2.80 2.17
-4.25 O-17
-4.15 0.27
-2.13 -3-27
-2.26 -3.41 45.48
3.39 49.61 53.37 57.60 45.34 17.60 42.51
35.17 38.12 35.72 47.70 44.09 56.0-i 43.36 20.93 56.50 33.69 *+*a0 21.99 se.45
7.15 -1-80
2.32 S-76 6.76 5.24
-10.01
17466.98 17451.71 17465.35 17456.07 17465.35 17455.71 17458.49 17462.42 17460.27 11464.20 174S9.90 17455.92 17462.25
10.10 0.82 0.47
-0.81 0.47
-1.10 1.61
;:ZZ 7.32
18132.54 18112.12 10007.51 10102~03 18111.27 18098.52 10103.50 18090.75 18081.72 10128.32 10090.29 10136.88 18109.55 18101.41 18097.b4 10089.49 10076.51 18068.30 10066.16 18078.90 18061.90 18079.97 10071.82 10070.38 18070.06 leO68.63 18067.34 18070.04 10069.21 10071.91 10070.11 10069.96 18068.05 10067.30 10060.49 18065.17 10060.59 18065.20 10062.73 10Obl.52 18062.59 18061.38 19157.92 19112.89 19161.06 191bS.04
:8:x; . 19127.31 19153.20 19145.43 19140.76 19146.31 19150.76 19154.87 19167.32 19154*11 19130.19 19167.23 19143.48 19155.31 19131.56 191b9.39 19116.92 19106.57 19110.97 19114.83 19115.90 19114.26 19097.80
i9119.15 19109.31 19117.40
:::;3-:8 19107:26 19110.19 19114.35 19112.06 1911b.22
3.02 -O.%
5.37 5.78 2.83 3.25
17458.94 2.O6
19111.67 19107.37 19114.05 19114.48 19111.39
67.54 47.11 22.50 37.03 46.26 33.51 38.49 25.75 16.72 63.31 25.28 71.08 44.55 36.40 32.63 24.49 11.50
3.M 1.15
13.89 -3.oi 14.96
6.81 5.37 5.06 3.b2 2.34 5.03 4.21 6.90 5.71 4.95 3.05 2.30
-4.52 0.17
-4.41 0.27
-2.20 -3.49
-2.42 -3.63 49.41
4.37 52.55 57.33 61.09 49.14 10.80 44.60 36.92 40.24 37.00 50.24 46.36 58.80 45.60 21.68 50.72 34.97 46.80 23.05 60.80
8.41 -1.94
f :E 7.38 5.75
-10.63
10.64 0.80 8.89
-0.95 0.89
-1.26 1.68 5.84 3.55 7.71
3.16 -1.15
5.54 5.97 2.08
19111.82 3.31 19110.58 2.07
F. PARRNTE et al. L X-Ray Satellite Energies
TABLE III, L X-Ray Satellite Energies of ,Th, &, and sJAm (in eV) See page 387 for Explanation of Tables
TRANSITION EMRGY SHIFT ENERGY SHIFT ENEAGY SHIFT
LIN6 2 - MM3 1 LlN4 2 - N6N3 2 iiN 2 - N6113 3 LlN6 3 - h6N3 2 ~1~6 3 - N6N3 3 LlN6 3 - kblu 4 LAN1 3 - NlN3 2 LlN7 3 - Iu7N3 3 LlN7 3 - N7~3 4 LlN7 4 - N7N3 3
LlN7 4 - N7N3 4 :::: ,* - - NM4 &IN3 2 5
LlWl 1 - 111114 1 LlNl 1 - MN4 2 LlM2 0 - 112114 2 LlM2 1 - 112114 1 LlNP 1 - 112114 2 L1113 1 - N3M 1 LLN3 1 - N3N4 2
L1113 1 - w3w4 3 LlM3 2 - N3114 0 LlN3 2 - M3N4 1 LlN3 2 - N3M4 2 L1113 2 - hi3114 3 Llnr 1 - 114114 2 LuI4 2 - N4N4 0 LlM4 2 - MN4 2 LlW5 2 - NSW4 1 LIWS 2 - MN4 2
LlN5 2 - N5114 3 LlN5 2 - NW4 4 LlM5 3 - wsPl4 1 LlM5 3 - M5M 2 LlN5 3 - w5n4 3 LlW5 3 - 115114 4 LlNl 0 - NlN4 2 LlNl 1 - LlR4 1 LlNl 1 - NlM4 2 LlN2 0 - tit114 2
LlN2 1 - hZM4 I LlN2 1 - NZM4 2 LlN3 A - Pi3114 1 LlN3 1 - NJW+ 2 LlN3 1 - h3bl4 3 ~1~3 2 - Mm4 o LlN3 2 - N3M4 1 LlN3 2 - f’J3114 2
x : - - N3lt4 N4M4 3 1 LlN4 1 - WR4 2 LIN4 1 - WN4 3 LlN4 2 - WI44 0 L1N4 2 - MN4 1 LlN4 2 - N4R4 2 LlN4 2 - 114114 3 LlN4 2 - N5M 1 LlN5 2 - hSM4 2 LlN5 2 - N5M 3 Lily5 2 - h5114 4
LlN5 3 - NSM4 1 LlN5 3 - N5W4 2 LlN5 3 - NW+ 3 LlN5 3 - N5N4 4 LlN6 2 - hSB4 1 LlN6 2 -wn42 LlN6 2 - wn4 3 LlN6 2 - w** 4 LlNb 3 - N(in4 1 LlN6 3 - MN4 2
LlN6 3 - N6N4 3
KG 5 I r,’ 2’
LlN7 3 - k7M4 3 LlN7 3 - h7N4 4 LlN7 3 - N7N4 5 LlN7 4 - NfM4 2 LlN? 4 - h7UC 3 LlN7 4 - N7M 4 LlN7 4 - N7W4 5
LlNl 0 - 11115 2 LlI(1 1 - NlN5 2 LlNl 1 - NM5 3 Luu 0 - N2N5 2 LlM2 1 - NZNS 2 LlN2 1 - N2M5 3 Cl113 1 - lull5 1
7HORIUN z-90 URbNIUN La92
16418.96 16421.91
::t;:=oe; . 16425.99 16419.72 16415.89 16424.00 16422.77 16423.61
-7.20 -4.25 -0.27 -4.15 -0.17 -6.44
-10.27 -2.17 -3.39 -2.29
11449.77 17452.85 17451.03
:;f;x~ 17450:55 1744b. 52 17455.03 17453.72 1?454.90
-7.11 -4.03
0.15
-3 . -6.33
-10.36 -1.85 -3.16 -1.98
16422.64 -3.52 16424.22 -1.95 11038.64 50.91 17C09.25 21.51 16598.39 10.66 17C48.18 60.45 17009.54 21.81 17052.33 64.60 17016.23 28.50 17C27.90 40.17
17453.59 17455.29 18091.35 18060.48 18049.26 18101.18 18061.21
:t;!g-t: . 18079.46
-3.29 19104.81 -3.70 -1.59 19106.71 -1.80 53.14 19776.51 57.84 22.87 19743.27 24.60 11.65 19731.48 12.80 63.51 19786.82 68.15 23.60 19744.78 26.11 67.88 19791.38 72.71 29.87 19750.24 31.51 41.85 19762.68 44.01
17015.52 17011.53 1x09.15 1702C.82 17aoa.44 17019.96 16999.14 17020.18 17014.02 17C20.26 llC32.63 17014.12 17003.28 17coe.72 17c21.09 17002.58 1699&55 16188.82 16981.50 16995.22
16991.37 16995.17 16991.50 16994.81 16991.11 16987.89 16589.94 16993.25
:6655865- ‘3: .
16985.49 16996.31 16976.48 16998.03 16981.21 16998.03 16980.78 16991.74 16994.36 16509.91
21.79
t:-i: .
ax 32:23 11.41 40.45 21.09 32.53
44.90 26.39 15.55 20.99 33.36 14.85
8.82 1.09
-0.23 b-49
3.64 7.44 3.77 7.08 3.37 0.16 2.21 5.52 1.81 8.58
-2.24 8.58
-::-:3 . -0.52 10.30
1.04 4.01 6.63 2.17
18066.75 18062.54 18060.14 18072.12 18059.41 18071.31 18049.80 18079.67 18065.63 18071.24 18083.94 18064.93 18053.93 18059.53 10072.24 18053.22 18047.23 18039.06 18037.68 18044.79
18041.82 10045.79 18041.84 18045.27 10041.43 18038.09 18040.21 10043.63 cm&.;;
.
18035.57 18046.87 18026.18 18048.65 18037.35 18048.b5 18038.95 18042.03 18044.75 18040.12
16986.32 16989.29 16991.91 16987.45 16977.78 16908.00
:t’,t:-:: . 16971.88 16588.09
16982.63 16991.35 16981.57 16985.15 16987.53 16982.33 16981.44 lb985.03 16987.40 16982.20
17193.11 17152.92 17169.47 17185.40 17189.55 17182.02 17155.57
-1.41 1.56 4.18
-0.28 -9.95
0.26 -5.20
3.52 -9.85
0.36 -5.10
3.62 -6.17 -2.58 -0.20 -5.40 -6.29 -2.70 -0.33 -5.53
47.01 6.76
23.32 39.25 43.40 35.86
9.42
18036.41 18039.49 18042.21 18037.58 18027.40 16038.15 18032.37 18041.60 18027.51 18038.25 18032.47 18041.70 18031.53
‘1983:‘f7” 18032:32 18031.39
:xg3-:5 . 18032.19
18263.73
:gg-$3 . 18255.66 18259.97 18252.19 18224.28
29.14 24.94 22.53 34.51 21.80 33.70 12.20 42.07 28.02 33.63 46.33 27.32 16.32 21.92 34.63 15.61
9.62 1.45 0.07 7.18 4.21 8.18 4.23 7.66 3.82 0.48 2.60 6.02 2.18 9.26
-2.03 9.26
-11.42 11.04
-0.26 11.04
1.34 4.42 7.14 2.51
-1.20 1.88 4.60
-0.03 -10.21
4%
-1x:: 0.64
-5.14 4.09
-6.08 -2.33
0.16 -5.29 -6.22 -2.46
0.03 -5.42
49.91 7.82
24.94 41.85 46.15 31.38 10.47
AHERICIUM 2195
19100.81 -7.70 19104.01 -4.44 19108.55 0.04 19104.18 -4.33 19108.66 0.15 19101.62 -6.90 19097.27 -11.24 19106.39 -2.12 19104.95 -3.56 19106.25 -2.26
19749.41 19744.92 19742.47 19754.92
:99;::-:: 19731166 19762.78 19747.65 19753.50
19766.72 19746.94 19735.73 19741.58
.l9754.80 19735.02 19729.13 19720.25 19718.78 19726.53 19723.36 19727.60 19723.17 19726.77 19722.74 19719.20 19721.42 19725.02 19720.99 19728.53
19716.51
:'93',:-3: . 19730.40 19718.38 19730.40 19720.02 19723.26 19726.14 19721.25 19717.36 19720.61 19723.48 19718.59 19707.64 19719.18 19712.92 19722.92 19707.75 19719.29 19713.03 19723.03 19712.07 19116.07 19718.73 19712.91 19711.93 19715.93 19718.59 19712.17 19978.07 19933.03 19951.02 19969.55 iW74.li 19965.96 19935.62
30.80 26.25 23.80 36.24 23.04 35.55 12.99 44.11 28.98 34.83 48.05 28.26 17.06 22.91 36.13 lb.35 10.4b
1.58 0.11 7.86 4.68 8.93 4.50 8.10 4.07 0.53 2.75 6.35 2.32 9.86
-2.16 9.86
-12.12 11.73 -0.29 11.73
1.35 4.59 7.41 2.58
-1.31 1.94 4.81
-0.08 -11.03
0.51 -5.75
4.25 -10.93
0.62 -5.64
4.36 -6.60 -2.60
0.06 -5.76 -6.74 -2.74 -0.08 -5.90
54.04 9.01
21.00 45.52 50.06 41.94 11.59
435
436 F. PARENTE et al. L X-Ray satellite Energies
TABLE III. L X-Ray Satellite Energies of ,Th, JJ, and ssAm (in eV) See page 387 for Ex&nation of Tables
1RAkS111nN EhERGY SHIFT ENERGY sntFT ENER&Y SHIFT
LlM3 1 - M3MS 2 Lli’l3 1 - l43M5 3 LlM3 2 - M3MS I LlM3 2 - MSMS 2 LlM3 2 - MM5 3 LlM3 2 - M3M5 4
17190.31 17167.99 1714ll.50 17183.24 17160.91 17196.48 17168.14 17173.58 17115.95 17t76.37 17181.81 17104.18 17175.67 17151.32 17177.65 17187.97 17166.11 17176.43 17154.40 17145.35 17147.38 17151.20 17152.15 17151.09 17145.68 17152.08 17151.75 17144.12 17150.51 17150.18
44.16 21.84
2.34 37.09 14.76 50.32 23.99 27.43 39.80 30.22
35.65 48.03 29.52
5.17 31.50
x 3;:;;
. -0.80
1.22 5.05 6.00 4.94
-a.47 5.92 5.60
-2.03 4.36 4.03
18259.94 18237.05 18216.94 18252.60 18229.71 18266.17 18237.23
:g;;* ii 18245:59 ia25t.20 18263.90 18244.89 18219.52 18246.57 18257.17 16234.86 18245.46 18222.95 18213.40 18215.52 18219.62 18220.61 18219.50 18213.76 18220.36 18220.04 18212.12 18218.75 18218.41
46.12 19972.65 23.23 19948.90
3.13 19927.85 38-78 19964.88 15.69 19941.13 52.35 19978.96 23.41 19949.14 29.01 19955.00 41.72 19968.21 31.78 19957.70 37.38 19963.56 50.09 19976.78 31.07 19956.99
5.70 19930.00 32.75 19958.13 43.35 19969.15 2lIOS 19946.22 31.65 19957.24
9.14 19934.04 -0.41 19923.69
1.70 19925.95 5.80 19930.49 6.80 19931.56 5.69 19930.37
-0.06 19924.08 6.57 19931.05 6.23 19930.69
-1.69 19922.33 4.93 19929.3C 4.59 19928.94
48.63 24.87
3.82 40.86 17.11 54.94 25.12 30.97 44.19 33.68
39.53 52.75 32.97
5.98 34.11 45.13 22.19 33.21 10.01 -0.34
1.92 6.46 7.53 6.35 0.05 7.02 6.66
-1.70 5.27 4.91
L1114 1 - M4M5 1 LlN4 1 - M4M5 2
- M4M5 3 - M4MS 1
LtM4 2 - W4115 2 LlM4 2 - R4M5 3 LlW4 2 - mm5 4 ilM5 2 - MSM5 0 Lull 2 - MSMS 2 Lln5 2 - m m 4 LtMf 3 - 115115 2 LlU5 3 - Mm5 4 LlNl 0 - NlM5 2 LlNt 1 - NlM5 2 LlNl 1 - NlWS 3 LlN2 0 - N2W5 2 Llh2 1 - N2n5 2 LINP 1 - N2W5 3 LlN3 1 - NM5 i LlN3 1 - N3M5 2 LlN3 1 - N3M5 3 LlN3 2 - WM5 1 LlN3 2 - N3115 2 LlN3 2 - N3H5 3
LlN3 2 - MM5 4 LlN4 1 - N4M5 1 LtN4 1 - WM5 2 LAN4 1 - N4W5 3 LlN4 2 - N4M5 1 LlN4 2 - WM5 2 ilN4 2 - NM5 i LlN4 2 - WR5 4 LlNS 2 - N5R5 0 LlNf 2 - h5MS 1 LlN5 2 - NSRS 2 LtN5 2 - NSMS 3 LIN5 2 - h5M5 4 LlN5 3 - NSWS 1 LlN5 3 - h5M5 2 LlN5 3 - NSWS 3 LlN5 3 - NSMS 4 LlN5 3 - N5M5 5 LlN6 2 - h6U5 0 LlN6 2 - N6ll5 1 LtN6 2 - N6M5 2 ~1N6 2 - NLMS 3 L1N6 2 - NbM5 4 LlN6 3 - N6M5 1 2::: s - - NbM5 NM5 3 2
LlN6 3 - N6115 4 LlN6 3 - MM5 5 LlN7 3 - N7M5 1 LlN7 3 - N7M5 2
LlN7 3 - N7M5 3 LlN7 3 - hlM5 4 LlN7 3 - N7M5 5 LlN7 4 - N7115 2 LtN7 4 - hbl5 3 LlN7 4 - N7M5 4 LlN7 4 - N7M5 5 LlN7 4 - NIIU 6 Li(11 0 - MlN2 1 LIMl 1 - MtN2 0
LlWl 1 - MlN2 1 LlM2 0 - M2N2 1 LlM2 1 - m2N2 0 LtMi 1 - W2N2 1 LlH3 1 - M3N2 1 LlM3 1 - M3N2 2 LlM3 2 - M3N2 1 LlM3 2 - loN2 2 LtM4 1 - M4Nt 1 LtM4 1 -Me?2
LlM4 2 - MN2 1 LtM4 2 - MN2 2 Ll)IS 2 - mN2 2 LtM5 2 - M5U2 3 LlMS 3 - B5N2 2 LlM5 3 - MSN2 3 LlNl 0 - NlN2 1
1MoR1UI4 2190 UR6NlUM L=92 UlER 1CtUM t-95
17150.22
:xzg0 17151137 17147.12 17150.31 17153.08 17148.35 17132.97 17154.65 17142.35 17157.92 17146.24 17152.20 17139.90 17155.47 17143.79 17153.11 17138.18 17130.71 17142.87 17144.48 17145.87 12138.81 17142.97 17144.58 17145.96 1714o*50 17134.27 17142.85
17139.55 17149.18 17139.29 17142.73 17139.42 17149.05 17139.16 17149.36 19397.95 19355.31 19357.70 19389.02 19377.17 19393.17 19374.60 19373.15 19367.52 19366.07 19377.74 19361.54
4.07 18218.44 -0.75 18213.46
2.44 18216.78 5.21 18219.67 0.97 18215.24 4.16 18218.56 6.93 18221.45 2.20 18216.52
-13.18 18200.46 8.50 182?.3*02
-3.80 18210.22 11.77 18226.42
0.09 18214.26 6.05 18220.45
-6.25 18207.69 9.32 18223.88
-2.37 18211.73 6*96 18221.43
-7.97 18205.81 -7.44 18206.35 -3.28 18210.73 -1=67 18212.41 -0.29 182 13.87 -7.35 18206.45 -3.18 182 10.83 -1.57 18212.52 -0.19 18213.97 -5.65 18208.23
-11.88 162at.60 -3.30 18210.84
-6.60 3.03
-6.86 -3.43 -6.73
2.90 -6.99
3.20 95.90 57.27 55.65 86.97 75.13 91.12 72.56 71.11
t:**,: 75:69 79.50
18207.33 18217.50 18207.04 182 10.71 182or.20 18217.36 18206.91 182 17.72 20584.26 20543.85 20542.17 20575.13 20562.67 20579.44 20559.14 20557.62 20551.80 2055Q.27 20562.43 20566.41
4.63 -0.35
2.97 5.85 1.43 4.75 7.63 2.70
-13.35 9.20
-3.59 12.60
0.45 6.66
-6.13 10.06 -2.09
7.62 -8.00 -7.47 -3.09 -1.40
-kg -2.99 -1.30
0.16 -5.58
-12.02 -2.97
-6.49 3.68
-6.77 -3.10 -6.62
3.55 -6.90
3.90 100.35
59.94 58.26 91.22 70.76 95.53 75.23 73.71 67.89 66.36 70.52 82.50
19928.97 4.95 19923.75 -0.27 19927.27 3.24 19930.32 6.30 19925.62 1.60 19929.14 5.11 19932.19 8.17 19926.97 2.95 19909.88 -14.15 19933.75 9.72
19920.21 -3.82 19937.34 13.31 19924.48 0.46 19931.09 7.07 19917.55 -6.47 19934.68 10.65 19921.82 -2.20 19932.10 8.07 19915.43 -8.60 19915.99 -8.04 19920.69 -3.34 19922.48 -1.54 19924.05 0.03 19916.10 -7.93 19920.79 -3.23 19922.59 -1.43 19924.16 0.14 19918.00 -6.02 19911.07 -12.95 19920.81 -3.22
19916.90 -7.05 19927.94 3.92 19916.65 -7.38 19920.67 -3.36 19916.84 -7.19 19927.80 3.78 19916.51 -7.51 19928.24 4.22 22473.97 106.88 22430.72 63.63 iirti.94 61.85
5::"5:-:: l ::-b: l 22469.10 102.01 22445.90 78.81 22444.26 77.17 22438.13 71.04 22436.49 69.40 22449.43 82.34 22453.68 86.59
19385.96 19389.77
:Et-:: 19373:6b 19372.60 19322.94
83.92 87.72 93.16 82.10 71.62 70.56 20.90
20570.80 86.89 20574.77 90.86 20569.64 85.73 20566.53
.- 84.62 20557.93 74.02 20556.82 72.91 205Ob.46 22.55
22457.99 90.90 22462.24 95.15 22456.14 89.05 22454.95 87.86 22444.22 77.13 22443.03 75.94 22391.28 24.20
F. PARENTE et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of wTh, szU, and &m (in ev) See page 387 for Explanation of Tables
TRANSlTlON EhERCV SHIFT ENERGY SHI Fr ENERGI SHIFT
LlNl 1 - NlN2 0 LlNl 1 - NlN2 1 LlN2 1 - N2N2 0 LlN3 1 - N3N2 1 LlN3 1 - WN2 2 LlN3 2 - N3N2 1 LlN3 2 - N3N2 2 LlN4 1 - N4U2 1 LlN4 1 - h4N2 2 LlN4 2 - NIN2 1 Llh4 2 - N4N2 2 LlN5 2 - h3N2 2 LlN5 2 - N3N2 3 LlN3 3 - k3N2 2 LlN3 3 - N3N2 3 Llh6 2 - hbN2 2 LlNt 2 - NbN2 3 Llh6 3 - N0N2 2 LlNb 3 - NbN2 3 LlN7 3 - N7N2 3 LlN7 3 - N7NL 4 LlN7 4 - N7N2 3 Llh7 4 - N7N2 4 LlMl 0 - MlN3 1 Lull 1 - HlN3 1 LlWl 1 - NlN3 2 ~lW2 0 - M2N3 1 LlW2 1 - MtN3 1 LlM2 1 - NtN3 2 LlM3 1 - M3N3 0
~lP3 1 - M3N3 1 LlM3 1 - M3N3 2 Lln3 2 - W3N3 1 LlW3 2 - M3N3 2 ~1~3 2 - H3N3 3 LlW4 1 - MN3 0 ~1~4 I - n4N3 1 LlM4 1 - M4N3 2 L11(4 2 - n4N3 1 LlW4 2 - I44N3 2 LlN4 2 - H4N3 3 LlM3 2 - USN3 1 LlIU 2 - H3N3 2 LlR3 2 - 1(3N3 3
19324.90 19313.89
:8,‘:?z 19212:44 19316.43 19310.08 19304.36 19324.02 19306.27
::z:t -l't . 19311.39 19312.34 19300.93 19302.26 19309.71 19302.36 19309.80 19305.34 19303.39 19305.42 19303.26 19604.50 13364.33 19567.77 19391.12 19393.27 19393.97 19361.64
22.06 20308.31 11.04 20496.91 11.90 20497.14 13.93 20301.03 10.40 20493.32 14.39 20499.39
8.83 20493.69 2.51 2M87.23
22.70 20508.20 4.23 20409.01
24.50 20309.98 12.73 20497.73
9.34 20494.22 LO.29 20493.20
6.09 20491.68 0.22 20484.82 7.66 20192.36 0.31 20404.92 7.76 20192.67 3.50 20108.21 1.33 20483.96 3.37 20400.06 1.22 20403.83
96.23 20818.69 37.98 20776.60 61.42 20780.20 84.77 208O4.60 88.92 20809.11 07.62 20007.73 61.29 20719.43
::;x3 .
:;:s;-XI . 19319.97 19304.91 19586.93 19390.26 19393.18 19398.49 19394.18 19507.61 19494.20 19393.88 19382.66 19582.34 19562.37 19518.37 19309.31 19329.02 19326.12 19321.c7 15321.32 19304.62 19520.78 19319.22 19318.26 1951C.CI 19321.43 19317.79
8Oeb9 71.70 73.62 64.71 73*62 70.36 80*60 83.91 88.83 92.14 88.43 81.46 87.03
E-E 73:os 76.02 12.02
2.96 23.47 19.77 20.72 13.17
3.27 14.43 12=07 11.91
9.72 13.08 11.44
20799.37 20790.30 20792.23 20702.96 20792.23 20797.43 20799.53 20602.96 20607.92 208 11.33 20007.31 20799.86 206C6.30 208O6. lb 20794.79 20794.46 20794.49 20729.10 20719.b3 2074O.73 20737.13 20730.13 207 32.42 20719.82 20731.34 20729.70 20720.79 20726.53 20732.07 20726.31
24.40 13.00 13.23 Il.12 11.41 13.48
9.76 3.32
24.29 5.10
26.07 13.02 10.31 11.29
7.77 0.91 6.63 1.01 8.76 4.30 2.05 4.17 1.92
102.99 60.90 64.30 89.10 93.41 92.05 63.73 83.87 74.60 76.33 67.23 76.33 01.73 03.83 87.20 92.22 93.44 91.81 84.16 90.80 90.46 79.09 70.73 70.79 13.48
3.93 23.01 21.43 22.42 lb.72
4.12 15.64 14.00 13.oa 10.83 16.31 12.61
22392.93
I33t;‘t: s 22303.04 22379.11
ff:::‘f; m:;:l”;
22372: 36
22394.39 22381.38 22377.90 22370.92 22373.24 22368.00 22376.27 22368.19 2237b.38 22371.61 22369.23 22371.47 22369.09 22736.06 22711.03 22714.90 22741.33 22746.09 22744.63 22713.02 22734.29 22724-43 22726.32 22716.66 22726.52 22732.17 22734.39 22737.99 22742.93 22746.33 22742.32 22733.80 22740.76 22740.41 22728.03 22728.49 22720.33 22660.89 22630.34 22672.54
22669.11 22670.16 22664.23 22630.48 22662.33 22bb0.78 226398 90 22657.b4 22663=44 22639.31
23.04 13.83 14.38 17.95 12.02 lb.20 10.27
3.60 23.63
3.47
27.30 14.49 10.61 11.63
8.13 0.99 9.18 l-10 9.29 4.32 2.14 4.38 2.00
110.03 64.99 60.07 93.30
100*03 98.61 Lb.99
08.26 78.42 80.49 10.63 80.49 8b.13 86.33 91.95 96.92
100.32 96.48 07.76 94.73 94.37 82.61 02.46 82.49 14.03
4.31 26.31 23.07 24.14 18.21
4.43 16.30 14.73 13.93 11.61 17.41 13.48
iiws 3 - M5N3 2 LlW5 3 - H3N3 3
- M5N3 4 - NlN3 1
LlNl 1 - hlN3 1 LlNl 1 - NlN3 2 LlN2 0 - h2N3 1 LlN2 1 - N2N3 1 LlNt 1 - N2N3 2 LlN3 1 - N3N3 0 LlN3 1 - N3N3 2 LlN3 2 - N3N3 2 LlN4 1 - NW3 0 LlN4 1 - N4N3 1 LlN4 1 - NIN3 2 LlN4 2 - h4N3 1
LlN4 2 - N4N3 2 LAN4 2 - MN3 3 LlM 2 - h5N3 1 LlN3 2 - N3N3 2 LlN5 5 - N3N3 3 LlkS 3 - MN3 2 LlC3 3 - NSN3 3 LlN3 3 - hSN3 4 LlNb 2 - h6N3 1 LlN6 2 - NCN3 2
LlN6 2 - N&I 3 LlN6 3 - N0N3 2 LlN6 3-km33 LlN6 3 - N6N3 4 LlN7 3 - N7N3 2 LlN7 3 - N7N3 3 LlN7 3 - N7N3 4 LlN7 4 - h7N3 3 LlN7 4 - N7N3 4 LlN7 4 - N7N3 3
LlRl 0 - HlN4 2 LlMl 1 - MN4 1 LlMl 1 - WlN4 2 LlIl2 0 - ll2NI 2 LlM2 1 - rum 1 LlMZ 1 - W2N4 2 L113 1 - M3N4 1
THORIUH 2=90 URANIUH z-92 ANERICIW 2193
19323.13 16.80 20733.63 16.14 22665.31 19.28 19317.39 11.24 20728.10 12.40 22639.29 13.23 19307.37 1.02 207 17.40 1.78 22b47.90 1.94 19324.20 17.93 20734.93 19.23 22666.23 20.22 19511.99 5.64 20722.26 6.36 22652.99 6.96 19s21.03 13.48 20732.39 16.69 22663.39 17.36 19509.34 3.19 20719.72 4.02 22630.34 4.30 19329.33 22.98 2074O. 13 24.42 22671.67 23.64 19508.23 1.88 20716.42 2.72 22b49.06 3.03 19310.70 4.33 20721.00 3.30 22631.79 5.76 19513.04 8.69 19310.79 4.43 19313.14 0.79 19308-26 1.91 19303.23 -3.12 19512-62 6.47 19510.60 4.33 19312.69 6.34 19310.33 4.20 19313-79 7.44
20723.49 20721.10
t:;$-:t 20713:23 20723.13 207 20.96 20123.02 20720.02 20724.13
9.79 3.40 9.90 2.77
-2.47 7.43 3.25
3:; 0.43
22636.30 10.47 22631.90 3.87 22636.61 10.38 22649.13 3.10 22b43.33 -2.48 22633.97 7.94 22651.70 3.6b 22633.63 7.80 22651.36 5.53 22634.96 8.92
19060.26 99.09 19820.86 39.60 19020.03 38.84 19143.90 84.72 19041.64 06.46 19830.03 00.87 19633.30 74.11
21083.32 2 1044.29
::0oti-:; 21072146 21074.90 21038.66
103.78 62.36 61.69 80.94 90-73
23039.96 110.73 22995.84 66.61 22994.92 63.70 23024.40 93.16 23026.26 97.04 23020.96 99.73 23009.90 80.76
437
438 F. PARENTE et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of ,Th, &J, and &m (in eV) See page 387 for Explanation of Tables
7RANSClION
LlM3 A- N3N4 2
iU3 i -wN41 LlN3 2 - M3N4 2 LlK3 2 - WN4 3 Lln4 1 - i&N4 1 ',::t : - 1144 2
-MN43 llW4 2 - w4N4 0
LlH4 2 - Mm4 1 LlN4 2 -wN42 LlPl4 2 -WIN43 Llfil 2 - m5n6 1 LlUS 2 - USN4 2 LlM5 2 - MSN4 3 LlM5 2 - nsu4 4 LlM5 3 - MN4 1 LlM5 3 - MSN4 2 LlM5 3 - USN4 3
LlM5 3 - MSW 4 LlNl G - NLN4 2 LlNl 1 - hlN4 1 LlNl 1 - MN4 2 LAN2 0 - N2N4 2 LAN2 1 - k2N4 1 LlN2 1 - N2N4 2 LlN3 1 - MN4 1 LlN3 1 - WN4 2 LlN3 1 - A3N4 3
LlN3 2 - h3N4 0 LlN3 2 -.N3U4 1 LlN3 2 - N3N4 2 LlN3 2 - h3N4 3 LlN4 1 - MN4 2 LlN4 2 - NM44 0 LlN4 2 -N4N42 LlNS 2 - k5N4 1 LlN5 2 - Nsm 2 LlN5 2 - NSN4 3
LlN5 2 - hSN4 4 LAM 3 - N5N4 1 Llk5 3 - NSN4 2 LAN5 3 - NSN4 3 LINS 3 - N5N4 4 LlN6 2 - NbN4 1 LlN6 2 - N6N4 2 LlN6 2 - NINS 3 LlN6 2 - N6N4 4 LlN6 3 - N6N4 1
LlN6 3 - N6h4 2 LlN6 3 - N6NS 3 LlNb 3 - WIN4 4 LIN? 3 - NlN4 2 L1Nl 3 - NlN4 3 L1Nl 3 - htN4 4 LlNl 3 - NlN4 5 LlNl 4 - NlN4 2 LlNl 4 - NlN4 3 LlN7 4 - NW4 4
LlNl 4 - NlN4 5 LINl 0 - MlN5 2 LlMl 1 - MlN5 2 LlHl 1-MlN53 LiN2 0 - U2N5 2 LlW2 1 - MN5 2 LlM2 1 - n2N5 3 ~1143 I - MN5 A LlH3 1 - IUNS 2 Lln3 1 - mnf 3
LlN3 2 - IONS 1 LAN3 2 - WNS 2 Ll)t3 2 - M3NS 3 LlM3 2 - N3NS 4 LAW4 1 -MN51 AM4 1 -MN52 LlN4 1 - mN5 3 L1)14 2 - M4N5 1 LlM4 2 - I4N5 2 LlM4 2 - R4N5 3
Lll44 2 - MN5 4 LlH5 2 - 115N5 0 LlM5 2 - MSNS 1 LlNS 2 - HSN5 2 LlUS 2 - MN5 3 Ll115 2 - H5N5 4 LM5 3 - MSNS 1
TnORIuM 2=90 URINWM Z-92 MEa Iclun 2195
ENERGY SHIFT ENERGY SHIFT ENERGY SHIFT
19839.08 11.90 19334.94 13.75 19625.53 64.34 19128.22 67.04 19532.00 70.92 19327.86 66.66 19148.20 87.02 1913t.38 16.20 19548.20 87.02 19034.118 73.69
am& ;; .
21048.53 21051.32
1:;;~4: 21072: 15 21060.56 21072. IS 21058.06
80.86 23014.14 76.55 23009.59 66.80 22999.28 69.58 23002.22 13.51 23006.30 69.21 23001.82 90.42 23024.39 19.13 23012.38 90.42 23024.39 76.33 23009.11
84.92 80.37 70.06
35’:; . 72.60 95.17 83.15 95.17 19.89
19056.43 19145.61 19856.43 19843.97 19847.L6 19149.94
:221-2 19835:62 19538.40 19833.66 19119.95 19116.48 19170.90
:::;t-2 19795:34 19772.51 19111.87 19772.31
19173.14 19110.95 19776.31 19110.75 19114.42 19165.13 19776.13 19110.88 19712.14 19777.39
95.25 84.42 95.25 82.79 as.90 88.75 (14.02 71.25 14.44 11.21
72.48 18.77
'X% . 29.21
8.89 29.16 11.33 16.69 11.13 11.96
9.16 IS*12
9.56 13.23
3.95 14.95
9.70 11.55 16.20
21000.52 98.79 21069.23 87.49 21080.52 98.19 21061.16 85.42 21070.48 88.14 21013.36 91.63 21068*43 86.10 21055.45 13.12 21058.17 77.04 21061.66 19.92
21056.73 15.00 21002.11 20.38 20998.34 16.61 20992.56 10.83 21011.87 30.14 2W91.90 10.17 21012.87 31.14 20994.11 12.37 20999.64 17.91 20993.90 12.16
23032.95 23020.94 23032.95 23018.12 23021.64
33x::-:5 23006:20 23009.72 23012.77
23001.56 22951.20 22946.93 22940.85 22961.45 22940.48 22962.51 m’,.;;
. 22942.07
103.73 91.72
103.73 88.90 92.41 95.41 90.25 16.98 80.50 83.55
78.33 21.98 17.70 11.63 32.22 11.26 33.29 13.07 18.87 12.84
20994.73 20992.41 20998.01
fiE% ro9sa: 55 20997.94 20992.42 20994.34 20999.15
20991.86 20939.88 20991.80 20996.61 20989.32 20916.90 20993.08 20982.45 20999.40 20971.00
20993.18 20982.55 20999.51 20913*28 20987.26 20990.18 20983.40 2o983.15 20901.13 20990.65
12.99 22942.88 13.66 10.74 22940.54 11.32 16.27 22946.34 17.11 10.53 22940.32 11.09 14.43 22944.53 15.31
4.82 22934.43 5.21 16.21 22946.40 11.18 10.68 22940.44 11.22 12.60 22942.46 13.24 11.41 22941.51 18.29
197‘10.33 15768.43 lPltO.28 19174.93 15761.88 19755.81 19771.43 19761.13
:t:33-F
19771:53 19761.23 19771.67 19762.01 lSt65.83 19169.23 19162.12 19761.08 19765.11 19169.10
9.15 1.24 9.10
13.75 6.70
-5.31 10.25
-0.05 16.39
-5.27
10.35 0.05
16.49 0.82 4.65 8.05 0.94 0.10 4.52 1.92
0.81 99.13 59.41) 60.66 84.94 89.09 38.42 71.02 17.11 11.51
10.12 8.15
10.01 14.88
7.58 -4.84 11.34 0.71
17.67 -4.14
11.45 0.82
17.71 1.54 5.52 9.05
:-2 . 5.39 8.92
22939.85 22931.79 22939.80 22944.85 22937.19 22924.24
I:;;;‘:: .
fIP’Z=SE .
22941.36 22930.25
t;9’3;= Z8 Z&p’:
22931:02 22930.75 22934.95 22938.67
10.63
1::: 15.63
7.97 -4.99 12.03
0.92 la.63 -4.08
12.14 1.03
18.74 1.66 5.87 9.58 1.79 1.52 5.73 9.44
19761.99 15098.63 19LSE.38
:E-z 19888:lnl 19587.32 19969.92 19816.01 19876.41
20963.27 1.53 22930.88 1.65 21129.05 104.63 23091.84 111.72 21W.96 62.54 23046.81 66.69 21018.19 63.71 23046.11 67.99 21113.65 89.23 23075.69 95.57 21117.96 93.54 23030.25 100.12 21117.25 92.83 23079.50 99.37 21098.32 73.99 23057.77 77.65 21104.64 80.23 23Ob4*46 84.33 21105.06 80.64 23064.88 84.76
19862.84 63.94 21090.98 66.56 19868.93 70.03 21091.30 12.88 19669.34 70.44 21097.72 73.30 19169.18 69.29 21096.53 72.11 19871.S2 78.92 21106.46 82.W 19880.T9 81.39 LllW.54 85.12 19aa3.41 94.51 21112.26 61.05 19(18b.G5 67.15 21114.83 90.41 19w9.01 90.11 21111.91 93.49 19891.64 92.74 21120.63 96.21
23050.01 23056.69 23057.12 23055.88 23066.50
:i% x2 23075:Ob 23078.31 23o81.18
69.88 16.51 76.99 15.15 86.31 09.62 92.50 94.94 98.18
101.06 19m7.1a 86.26 21116.00 91.58 23016.29 19060.70 69.19 210%. 38 71.96 23054.86 19890.38 91.47 21118.94 94.52 23078.13 19178.08 79.18 21106.14 81.13 23065.19 19893.65 94.75 21122.33 97.92 23082.32 1998 1.96 83.06 21110.18 85.11 23069.46 19878.a4 79.93 21107.23 82.81 23066.82
96.17
2-2 as:01
102.20 89.34 86.69
F. PARENTE et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of eoTh, &, and @&m (in eV) See page 387 for Explanation of Tables
TRINSITION
LlM5 3 - KiNI 2 LLWS 3 - WSNS 3 LlR5 3 - MNS 4 zc: fi - - MN5 NlN!i 2 5
LlNl 1 - NlNS 2 LlNl 1 - NlNS 3 LlN2 0 - N2N5 2 LlN2 1 - NZNS 2 LlN2 1 - NZNS 3
LlN3 1 - N3N5 1 LlN3 1 - N3NS 2 L1N3 1 - h3N5 3 LlN3 2 - N3N5 1 LlN3 2 - N3N5 2 LlN3 2 - N3NS 3 LlN3 2 - N3NS 4 LlN4 1 - N4NS 1 LlN4 1 - N4N5 2 LlN4 1 - h4NS 3
Llh4 2 - NkN5 1 LIN4 2 - N4N5 2 LlN4 2 - N4NS 3 LlNk 2 - h4N5 4 LlN5 2 - NSNS 0 LlhS 2 - h5NS 2 LlNS 2 - N5NS 4 LlNS 3 - hSN5 2 LlN!i 3 - NSNS 4 iiN 2 - N6NS 0
LlN6 2 - N6N5 1 LIN6 2 - NbN5 2 LlN6 2 - h6N5 3 LlN6 2 - N6N5 4 LlN6 3 - WNS 1 LlN6 3 - N6N5 2 LlN6 3 - N6NS 3 LlN6 3 - NLN5 4 LlN6 3 - WNS 5 LlN7 3 - N7NS 1
LlN7 3 - h7NS 2 LlN7 3 - k7N5 3 LlN7 3 - N7N5 4 LlN7 3 - h7N5 5 LlN7 4 - N7N5 2 Llhf 4 - t%7N5 3 LlN7 4 - N7NS 4 LlN7 4 - N7N5 5
::: 1 : - - Mllll N7N5 6 o LZU2 0 - rczn1 1 L2112 1 - nzlc1 0 Lull I- wzn1 1 L2M3 1 - KM1 1 L2M3 1 - H3Wl 2 ~2143 2 - Iu(Il 1 L2M3 2 - n3n1 2 L2N4 1 - 114111 1 L2114 1 - M4Nl 2 LZM4 2 - M4Nl 1
L2M4 2 - M4Wl 2 LZMS 2 - I45111 2
X'S : - - wn1 M5Ml 3 2
tit: ; - - nsn1 NM1 3 1 LZNl 1 - NlWl 0 i2Nl 1 - hllll 1 LZNZ C - AZMl 1 LPN2 1 - N241 0
LZNZ 1 - k2Nl 1 LZN3 1 - N3111 1 L2N3 1 - N3Ml 2 LZN3 2 - N3Wl 1 LZN3 2 - N3Ml 2 L2h4 1 - h4Ml 1 LtN4 1 - kill 2 LZN4 2 - NI)Il 1 L2N4 2 - k4111 2 LPN5 2 - NSNl 2
LZNS 2 - (15111 3 LZNS 3 - N5Ml 2 LZNS 3 - 15Wl 3 L2N6 2 - MM1 2 L2N6 2 - N6)Il 3 L2W 3 - MM1 2 L2N6 3 - Ndnl 3
THOR 1un Z-90 unINrun 2~92 AMERICIwl 2=95
ENERGY SHIFT ENERGY SHIFT ENERGY SHIFT
19866.54 19882.11 lQ870.42 19879.75 19815.50 19806.45 19814.66 19816.52 19617.47 19814.06
21094.44 21110.63
;:;t:*:X 21042:bO 21033.05 21041.53 21043.63 21044.63 21041.12
70.02 tM53.28 86.21 23070.40 74.06 23057.55 83.77 23067.82 18.18 22999.65
6.63 22969.50 17.11 22996.39 19.21 23000.91 20.21 23001.96 16.70 22996.30
73.15 90.26 17.42 87.70 19.72 9.36
16.27
ff*XZ 18:18
19600.97 19617.66 19105.59 19799.41 15616.32 19804.03 19823.61 lS6Ob.C4 19609.69 19~14.54 19609.75 19611.61 19816.26 19809.21 15799.74 19809.86 19613.74 19607.41 19811.29 19799.61
67.64 63.21 71.52 60.65 16.60
1.55 15.76 17.61
:x-z .
2.07 16.98
:‘f: . 17.41
5.13 24.91
9.14 10.99 15.64
21027.26 21044.73 21032.06 21025.64 21043.10 21030.42 21050.83 21034.64 21036.56 21041.37
2x 7.64 1.23
16.68 6.01
26.41 10.23 12.15 16.9b
22983.24 23001.51 22968.26 22961.49 22999.76 22966.51 23007.65 p9; .;I
. 22998.12
3.12 21.39
8.14 1.37
19.64 6.39
27.72 10.94 12.95 18.00
10.65 12.71 17.36 10.31
0.04 lo.96 14.64
6.51 12.38
0.71
19799.16 0.25 19804.14 5.24 19605.64 6.74 19607151 6.60 19799.25 0.35 19804.24 5.34 19605.74 6.64 190C7.60 6.70 19800.94 2.04 1579 1.64 -7.26
21036.42 12.01 22992.93 12.81 21038.34 13.93 22994.95 14.82 21043.15 16.74 22999.99 19.67 21035.86 11.44 22992.34 12.21 21025.97 1.55 22981.79 1.66 21036.44 12.02 22992.76 12,.65 21040.45 16.03 22996.98 16.86 21033.90 9.48 22990.12 9.99 21037.91 13.49 22994.32 14.20 21025.90 1.48 22961.81 1.69
21025.46 1.04 22961.36 1.26 21630.62 6.21 22966.81 6.69 21032.16 7.77 22988.46 8.34 21034.11 9.70 22990.49 10.37 21025.56 1.14 22961.49 1.37 21030.73 6.31 22986-92 6.80 21032.29 7.87 22960.57 6.44 21034.22 9.60 22990.60 10.48 21027.30 2.88 22983.31 3.16 21017.62 -6.79 22973.07 -7.06
19804.72 19797.93 19612.66 19797.21 15604.59 19797.61 19612.55 19797.09 19614.95 14520.69
14573.18 14540.92 14516.10 145os.aa 14550.69 14509.41 14554.41 14546.94 14S38.06 14526.21
5.62 -0.97 13.76 -1.69
5.69 -1.10 13.65
-1.61 16.05 34.60 67.29 55.04 32.21
',",-:': . 23.52 68.53 63.05 52.20 40.33
21031.17 21024.16 21039.40 21023.47 21031.04 21024.05 21039.27 21023.33 21041.71 15411.17 15466.15 15431.87 15408.34 15395.42 15441.69 15399.05 15445.32 15439.53 15426.31 15416.46
6.75
;zz . -0.95
6.62 -0.37 14.85 -1.08 17.29 37.02
92.00 57.72 34.19 21.27 67.54 24.90 71.17 62-38 54.16 42.31
14515.36 29.47 15405.24 31.09 14515.87 29.96 15405.21 31.06 14532.42 46.54 15422.33 48.16 14516.96 33.08 15406.33 34.18 14535.52 49.63 15425.45 5l.M 14497.39 11.50 15386.79 12-64 14484.41 -1.47 15373.24 -0.91 14490.51 12.63 15387.96 13.81 14500.72 14.84 15390.43 16.28 14490.31 4.43 15379.37 5.22
22987.29 22960~01 22995.93 22979.30 22967.15 22979.67 22995.79 22979.16 22996.28 16627.41
16686.40 16646.60 16824.16 16810.10 16856.27 16613.89 16862.07 16855.75
:tt;zt .
16620.45 16619.50 16637.49 16622.64 16640.63 16601.31 16766.65 16802.56 16805.45 16793.33
7.17 -0.11 15.80 -0.82
7.03 -0.25 15.67
-0.96 18.16 36.70
95.69 56.09 33.47 19.39 67.56 23.19 71.36 65.04 53.25 41.53
29.74 29.79 46.76 31.93 49.92 10.60 -3.05 11.85 14.74
2.62
14481.70 2.82 15377.69 3.54 14489.56 4.10 15378.97 4.62 14493.42 7.54 15362.58 8.43 14490.60 4.91 15379.82 5.67 14494.23 8.35 15383.43 9.28 14494.04 8.16 15383.20 9.05 14493.20 7.32 15382.33 8.16 14489.07 3.19 15378.06 3.91 14486.23 2.35 15377.19 3.04 14489.33 3.45 15378-37 4.22
0.64 2.11 5.98 3.01 6.89 6.57 5.66 1.19 0.27 1.37
14490.52 4.63 15379.60 5.45 14490.03 4.15 15379.09 4.94 14491.21 5.33 153600.32 6.17 14464.21 -1.68 15373.03 -1.12 14482.29 -3.59 15371.03 -3.12 14464.06 -1.62 15372.86 -1.27 14482.15 -3.73 15370.88 -3.27
16791.55 16792.62 16796.69 16793.72 16797.59 lb797.28
::E% y,“:;:
.
16793.36 16792.62
:",;t',-:: 16784:29 16786.26 16784.13
2.67
:-:: . -4.29 -b*+Z -4.45 -b-58
439
F. PARENTE et al. LX-Ray !slItellikEnergies
TABLE III. L X-Ray Satizllite Energies of J’h, &, and eaAm (in eV) See page 387 for Explanation of Tables
TRANSITION ELLDGV snwr ENERGV SHIFT ENERGY SHIFT
L2N7 3 - h7Hl 3 LZN7 3 - NlMl 4 L2N7 4 - h7I41 3 LOW7 4 - hlM1 4 LZMI 0 - MlW3 2 L2Ml 1 - 111113 1 L2IIl 1 - MLW 2 L2I12 0 - 12113 2 L2W2 I -M2uIul L2RP 1 - 112113 2 la43 1 - W3M3 2 L2l43 2 - MM.3 0 L2M3 2 - )13113 2 Urn1 - MU3 1 L2114 1 - 114113 2 L2W4 1 -M)133 L214 2 - M6n3 0 L2ll4 2 - NM3 1 L2M4 2 - Ml43 2 L2n4 2 - MM3 3 LMS 2 - It5113 1 LZM5 2 - Mfi3 2 LUIS 2 - 115113 3 LZHS 2 - ew3 4 LZMS 3 - MM3 1 LZMS 3 - MM3 2 L2W 3 - MS113 3 LWS 3 - lSm3 4 L2Nl C - NM3 2 LWA 1 - NIlI3 1 L2Nl 1 - NM3 2 LZNZ t - N2n3 2 L2Ni 1 - h2113 1 L2N2 1 - N2u3 2 LiN3 1 - N3113 1 L2N3 1 - k3M3 2 L2N3 1 - UN3 3 L2W3 2 - N3M3 0 L2N3 2 - h31(3 1 L2N3 2 - N3m 2
L2N3 2 - h3W3 3 LPN4 1 - NW3 1
t3:: : - N4I43 2 - mm3 3
LZN4 2 - NM3 0 L2N4 2 - WIU 1 ~2~4 2 - ~4~3 2 L2N4 2 - N4113 3 L2N5 2 - N5M3 1 L2N5 2 - hSM3 2
LZNJ 2 - NM3 3 LZNJ 2 - NM3 4 L2N5 3 - hSM3 1 L2N5 3 - hSM3 2 L2N5 3 - N5N3 3 L2N5 3 - hSM3 4 L2Nb 2 - NbM3 1 L2Nb 2 - NbM3 2 L2Nb 2 - N&m 3 LSNb 2 - NbM3 4
LZNb 3 - hbH3 1 L2Nb 3 - N6lu 2 LWb 3 - 66113 3 L2Nt 3 - N6M3 4 L2Nl 3 - hllu 2 L2N7 3 - h7EI 3 iiN 3 - Ml113 4 LZN? 3 - h?lO 5 LOW? 4 - N?lu 2 LZN? 4 - 117113 3
L2N7 4 - h7U3 4 L2Nl 4 - N7M3 5 Lu(l 0 - WlM 1 Lzlll 1 - WlMl LZMI 1 - I1lM 2 L2N2 0 - WM 1 L2)12 1 -IG!UMl LulZ 1 - MtR4 2 uIu1-m3n40 Llii3 1 - mm4 1 L2M3 1 - R3M4 2 L2M3 2 - M3M 1 L2N3 2 - e31w 2 L2113 2 - 113114 3 L2l44 1 - MM4 0 L2II4 1 -MM42 L2W4 2 - M4M i
TnaRIun t-90 URbNfUN Z-92 ANERICIU~ Z=95
14461.54 14484.00 14461.57 144a4.03 lS?Ol.bb 15661.43 15706.43
:3%*:P 15661:62 15b7?.12 15656.37 156ao.64 lsbaa.a7 15100.54 156aa.16 15660.52
::t::*:: 15bb5:43 15651.47 15bab.21 15tt3.a9 15699.45 15654.57 ista9.31 15666.99 mo,“‘,.~o’
. 15639.2a
15310.23 15372.61 15310.27 15312.a4 16704.10 16662.04 16709.12 16120.67 16675.20 16662. at 166?(1.31 16657.03 166a1.94 16690.30 16702.26 16639.57 16669.64 16667.24 16679.22 1bMb.50 16651.63 16ba7.29 166i4.40 16100.86 16654.75 16690.41 16661.51 16703.98 16642.14 16639.19
-3.92 -1.34 -3.81) -1.31 69.26 27.94 74.22 as. 77 40.30 27.96
43.41 22.13 47.04 55.40 67.30 54.67 34.74 32.34 44.32 31.60
lb.73 52.39
z-z 19:as 55.51 32.61 69.08
7.24 4.29
16783.43 -7.26 16786. lb -4.55 16703.47 -7.24 16786.20 -4.51 1a3oa.51 70.71 la2bs.54 27.73 16313.71 75.91 10327.49 89.69 18278.02 40.21 18265.27 27.47
18280.48 42.68 18256.40 20.59 18284.28 46.48 18292.aa 54.99 18305.24 67.44 18292.03 54.23 18271.73 33.93 18269.29 31.48 18281.73 43.92 16268.52 30.72 18252.16 14.35 10269.20 51.39 18265.45 27.64 16303.21 65.47 18255.30 17.49 16292.33 54.53 18268.Sa 30.10 18306.41 68.60 18242.W 4.75 18239.41 1.60
15643.22 15649.12 i563a.55 15631.10 15645.b4 15t3t.74 15t45.64 15627.06 lM46.46 15637.55
15646.46 15641.42 15645.20
15641.Ob 15633.76 15t3t.45 1564a.23 15t3t.09 15633.12 15639.91
15640.32 15639.16 15634.52 15640.61 15641.01 1563F.116 15t26.69 15C31.64 15635.62 15629.35
:;:i:-:: lst35:4a 15629.21
:3:3x: Mb32331 15b33.a6
:;t: X -it . 15632.34 15633.92 1623l.27 16242.04 16231.16 16257.41 16202.33 1624S.12 1622a.ao 16226.43 1623a.10 16229.95 16241.b2 16229.24 16219.56 16240.63 16225.90
-4.34 -l.aa -4.31 -1.85 65.93
fi-2 . 80.97 37.94 25.a9 41.39 20.64 44.91 53.14 64.111 52.43 32.79 30.42 42.09 29.70
15:74 50.48 21.16 63.72 1B.M 53.5a 31.26 66.62
6.37 3.55
7.50 13=39
2.83 1.37 9.92 1.01 9.92
-8-67 10.13
1.62 10.73
5.69 9.40 5.33
-1.97 0.72 4.50 0.36
-1.91 4.ia 4.59 3.43
-1.21 4.aa 5.21) 4.13
-7.04 -4.09 -0.11 -6.3a
-7.11) -4.24 -0.25 -6.52
-‘,“% -3:42 -i.as
-10.26 -2.16
-3.39 -l.aL 39.97 44.74 33.a9 60.12
5 -03 47.62 31.50 29.13 40.00 32.65 44.32 31.94 22.29 51.33 20.61
16643.31 166W.64 16638.43 16636.90 16645.72 lb636.44 16645.72 1662i.45 16646.57 16637.29
16646. I7 16641.33 16643.27 16640.96 16633.40 16636.19
:zg-:f 166 33: 50 16639.a3 16640.24 16639.05 16634.22 16640.54 16640.96 16639.17 1tt2a.11 16631. la 16635.37 166ia.79 16627.96 16631.03 16635.22 16628.64 16624.66 16633.17 16631.86 16633.57 16624.10 16633.21 16631.90 -3.00 16633.60 -1.u) 17251.11 42.46 17263.05 47.42 i725i.a3 36.20 17279.67 64.04 1?221.05 6.23 172b6.13 50.50 11246.80 33.18 17246.40 30.77 1725a.30 42.75
:Ifz-:: 17249:30
Z*$ 33:t7
17239.14 23.51 17269.01 53.36 17245.94 30.31
0.41 14.74
3.53 2.00
10.62 1.54
10.1)2 -8.47 11.67
2.39
11.67 6.43
10.37 6.06
-1.50 1.29 5.22 0.92
-1.40 4.93
5.34 4.15
-0.68 5.64 6.06 4.07
-6.79 -3.72
0.47 -6.11
-6.94 -3.67
0.32 -6.26
-10.24 -1.73 -3.01 -1.33
-10.20 -1.69
16243. al 18250.85 18238.59 18236.95 18246. lb 18236.32 18246. lb 18225.79 18247.06 18237.22 18247.M la241.51 18245.67 la24i.il 18233.18 18236.12 18240.2a 18235.73 18233.12 18239.80 18240.23 18238.99 18233.06 16240.54 18240.97 18239.13 18227.35 18230.60 16235.00 16226.04 18227.19 18230.45 18234.93 18227.89 18223.60 18232.72 18231.28 18233.18 16223.64 16232.76
18231.32 18233.22 18890.72 1aa95.92 18864.13 18914.62 16052.40 18899.00 16679.91 18677.53 sciao9.97 laaal.32 16693.17 la880.56 18669.59 16900.70 16877.19
6.00 13.04
0.76 -0.66
8.35 -1.49
a.35 - 12.01
9.25 -0.58
9.25 3.70 7.66 3.30
-4.62 -1.69
2.47 -2.oa -4.69
2.00
2.42 1.18
-3.95 2.74 3.17 1.92
-10.46 -7.20 -2.72 -9.77
-1o.b2 -7.36 -2.68 -9.92
- 14.20 -5.09 -6.53 -4.63
-14.17 -5.05
-6.49 -4.59 42.15 47.95 36.16 66.66
4.44 51.03 32.01 29. St 42.01 33.36 45.60 32.60 21.62 52.74 29.23
F. PARFJNTE et al. L X-Ray Satellite Energies
TABLE III. L. X-Ray Satellite Energies of eoTh, =U, and ,&m (in eV) See page 381 for Explanation of Tables
TRANSI TloN EhERSV SttiFT ENERGY SHIFT ENERW SHIFT
Gins 2 - IIN4 1 &?)I5 2 - M!irn 2 L2114 2 - MSM 3 LZNS 3 - WI44 2 L2N5 3 - MM 3 Lilt5 3 - n5114 4 UN1 0 - NM4 A 12NI I - N1114 1 L2Nl 1 - NV’4 2 L2NZ C - h2M4 1 L2N2 1 -win41 L2nZ 1 - N2n4 2 L2N3 1 - N3M 0 L2N3 1 - h3ti 1 L2N3 1 - N3~4 2 L2W3 2 - N3W4 1 L2N3 2 - N3n4 t L2N3 2 - Y3M 3 L2M I- Nlrn 0 L2N4 1 - WIM 1 LiN4 1 - MM4 2 L2n4 2 - NW4 I t::t f - - N4w4 NM4 3 2
L2N5 2 - NSit4 1 L2N5 2 - NW4 2 L2N5 2 - NSM 3
16220.08 16225.51 16231.88 16228.61 16240.98 16222.47 16202.87 16203.99 16202.67 16209.74
16191.72 16201.53 16199.54 16201.59 16204.90 16202.40 16205.71 16202.00 16188.80 16210.36 16199.54 16205.39 16194.57 16205.39 16197.76 16200.12 16203.35 16201.42 16204.04 16199.58 16187.51 16191.12 16 192.26 16197.58 16192.12 16200.83 16191.10 16194.69 16191.06 16194.73
16197.10
:%:-Ii . 18421.51 18435.61 18473.06 18419.92 18417.98
:i%:-:t .
18424.36 18428.30 18441.98 18446.67 18425.26 18423.94 18427.77 18429.80 18430.87 18432.90
18361.98 18376.38 18315.38 18364.37 18334.44 18374.95 18355.25 18375.16 18369.13 18363.55
18364.16 18358.58 18356.88 18365.09 18357.57 18345.78 18355.28 18352.17 18355.14 183S2.03
18350.55 18354.70 18350.59 18354.73
:t;t?:f . 18800.56
22.18 28.21 40.58 31.31 43.68 25.17
5-57 6.69 5.37
12.45
18869.61 21.65 18875041 27.50 18888.68 40.12 18878.61 30.64 lB891.82 43.86 18872.04 24.07 18851.84 3.87 18853.08 5.12 16851.62 3.66 18859.95 11.98
0.43 4.23 2.24 4.29 7.60 5.10 8.41 4.71
-8.49 13.06
2.24 8.09
-2.73 8.09 0.46 3.43 6.05 4.12 6.15 2.29
-9.79 0.42
-5.c4 0.28
-5.18 3.54
-6.19 -2.61 -0.23 -2.57
-0.20 -5.40 80.71 71.38 85.48
122.93 69.79 67.85 70.71 74-65
74.23 78.17 91.85 96.54 7s.13 73.81 77.65 79.61 80.14 82.11
11.85 26.26 25.25 14.24
4.31 24.62
5.13 25.63 19.00 13.42
11239.46 17245.06 11257.17 17248.17 17260.88 17241.87 17221.99 11223.17 17221.19 17229.34 17216.60
::3::2: 17220: 58 17224.00 17221.43 17224.85 17221.02 11201.25 17229.71 17218.42 17224.57 17213.27 17224.51 17216.53 17219.60 17222.33 17220.32 17223.04 17218.41 17205.74 112 16.49 17210.11 17216.34 17210.56 17219.79 17209.61 17213.42 172 IS. 91 172 13.46
23.83 29.43 42.14 32. SS 45.25
‘f% 7154 6.16
13.71
0.97 4.95 2.83 4.95 8.38 5.80 9.23 5.39
-8.38 14.08
2.79
-28:E 8.94 0.90 3-97 6.10 4.69 7.41 2.78
-9.89 0.66
-4.92 0.71
-5.07 4.16
-5.96 -2.21
0.28 -2.17
18846.05 18850.29 18847.96 16850.18 18853.18 18851.08 18854.68 18850.65 18836.00 18859.84 18847.83 18854.45 18842.44 18854.45 18845.77 18849.02 16851.89 18849.76 18852.63 18847.75
18834.17 18845.71
%iX’~~ 18839:30 18849.30 18838.40 18842.40 18845.06 18842.44
-1.92 2.33 0 .oo 2.22 5.82 3.12 6.12 2.69
-11.97 11.87 -0.14
6.49 -5.52
6.49
-:s . 3.93 1.79 4.61
-0.22
-13.80 -2.25 -8.51 -2.41 -8.66
1.33 -9.56 -5.56 -2.90 -5.53
L2NL 3 - NII(4 2 tt:ii 3 - - NW4 hSM4 4 3
L2N6 2 -NM41 L2N6 2 - NM4 2 L2N6 2 - N6M4 3 LPN6 3 - NM4 2 L2Nb 3 - NM4 3 L2N6 3 - WI44 4 LZN? 3 - N7M 2 L2N7 3 - 117114 3 LZ117 3 - h7M 4 L2N7 4 - N7M 3
LZN? 4 - hlrn 4 L2Nl 4 - N7M4 5 LZRl 0 - MlNl 1 L2Ml 1 - UlNl 0 L2Ml 1 - MlNl 1 LZN2 0 - KZNl 1 LPR2 1 - ll2Nl 0 L2112 1 - WNl 1 L2H3 1 - MN1 Lam 1 - luNl
A 2
L2113 2 - M3Nl 1 L2N3 2 - M3Nl 2 L2W4 1 - Il4NL 1 L2M4 1 - WNl 2 ttrc: : - M4Nl 1
L2115 2 :,*5:: f L2llS 2 - MN1 3 L2N5 3 - NShl 2 L2115 3 - NSNl 3 L2Nl I - NlNl 0 L2N2 0 - N2Nl 1 L2N2 l-N2NlO L2N2 1 - N2Nl 1 ~2N3 1 - N3Nl 1 L2N3 1 - N3Nl 2 L2~3 2 - N3Nl 1 i2N3 i - N3Nl i ~2~4 1 - N4Nl I L2N4 1 - N4Nl 2 L2N4 2 - WNl 1 LiN4 2 - N4Nl 2 LZNS 2 - NINl 2 LZNS 2 - hSN1 3 L2N5 3 - N5Nl 2 LZNS 3 - NSNl 3 LINC 2 - N6Nl 2 LtN6 2 - k6Nl 3 L2N6 3 - Nbn'l 2 LZN6 3 - N6Nl 3
UN7 3 - N7Nl 3 LZN7 3 - N7Nl 4 L2N7 4 - N7Nl 3 L2Nl 4 L2Rll 0 1 ;;Uf ;
LZMl 1 - IlN3 1 L2lll 1 - NlN3 2
TnOnllJm 2190 uRANlUn 2-92 ANERlCIUM L-95
14.03 8.45 6.15
14.96 7.44
15.65 5.15 2.05 5.01 1.90 0.43 4.51 0.46 4.60
19.81 81.21 244.64
17215.95 172 10.49 19577.31 19567.52 19582.25 19621.68 19565.89 19563.81
:t;%- :; . 19569.68 19573.80 19593.93 19592.55
:‘,3x 19572: 80 19514.92 19575.92 19578.03
19505.80 195 20.99 19519.65 19508.25 19497.83 195 18.94 19498.68 195 19.19 19513.07 19507.29
19507.92 19502.15 19500.28 19508.76 19501.00 19509.48 19498.69 19495.46 19498.54 19495.31 19493.75 19498.05 19493.78 19498.09 19977.83 199w.17 19982.77
0.32 -5.13 84.84 15.06 89.78
129.22 73.43 71.41
;‘1- E .
17*22 81.34
101.46 100.09
IT;*:: 80134 82.45 83.45 85.57
13.34 28.52 27.19 15.79
5.37 26.48
6.22 27.33 20.60 14.82
15.46 9.68 7.82
16.30 8.53
17.02 6.23 3.00
2”:Z
1.28 5.59 1.32
8::: 85.45 89.05
18845.10 18839.28 21402.03 21391.53
;:::91*92: 21389:84 21387.69 21388.64 21393.04
21392.44 21396.84 21417.59 21416.13 21394.08 21392.62 21395.01 21397.27 21398.15 21400.41 21325.85 21342.31 21340.40 21328.41 21317.19 21339.20 21318.09 21340.10 21333.23 21327.16
21327.84
5:;::-:: .
ttzz . 21329.26 21318.03
f:X:f% 21314:46 21312.15 21311.30 21312.19 21317.34 21862.35 21863.68 21867.55
-2.87 -8.69 81.55 17.04 92.75
135.43 15.35 13.21 74.15 18.55
71.95 82.35
103.10 101.64
19.39 18.13 80.53 82.19 83.66 85.92
11.37 27.82 25.91 13.92
2.70 24.11
3.60 25.61 18.14 12.67
13.36 1.28 5.14
'Sf 14117
3.54
:*f% -0:oa
-1.14 2.81
-1.70 2.85
87.03 88.35 92.23
441
F. PARENTE et al. L X-Ray SRtellite Energies
TABLE III. L X-Ray Satellite Energies of &I%, &, and &m (in eV) See page 387 for Explanation of Tables
TRANSITION ENEWV SIIIFT ENERGV SHIFT ENERGV SHIFT
L2112 0 - N2N3 2 L2M2 1 -N2N31 Lilt2 1 - N2N3 2 12)13 1 - W3N3 1 L2113 1 -MN32 L213 1 - N3N3 3
:z f - - ION3 ION3 0 1 L2R3 2 - 113N3 2 L,g?n3 2 - N3N3 3
L2N4 1 - N4N3 1 L2N4 1 - MN3 2 Lzw4 1- MN3 3 L2)w 2 - )HN5 0 LM4 2 - (l(m3 1 L2N4 2 - MN3 2 L2N4 2 - tWi5 3 L2R5 2 - MN3 1 Lu14 2 - WIN3 2 L2M5 2 - MN3 3
L2Ni 2 - MN3 4 L2MS 3 -N5N31 L2NS 3 - N5N3 2 LZWS 3 - NW3 3 L2Nf 3 - NSN3 4 L2Nl 0 - NlN3 2 LPN1 1 - NlN3 1 L2Nl 1 - NlN3 2 L2N2 0 - h2N3 2 L2N2 1 - N2N3 1 tz : - NON3 2
-Nm32 LPN3 2 - N3N3 0 L2N3 2 - WN3 2 L2N4 1 - N4N3 1 L2N4 1 - w 2 L2N4 I - WN3 3 L2N4 2 - N4N3 0 L2N4 2 - N4N3 1 L2N4 2 - N4N3 2
- N4N3 3 -MN31 - N5N3 2 - N5N3 3
::“Ns’ : - - NSN3 N5N3 4 1 L2NS 3 - N5N3 2 L2N5 3 - N5N3 3 L2N5 3 - N5N3 4 L2n6 2 - NttN5 1 L2N6 2 - h6w3 2 LW6 2 - N6N3 3 L2Nb 2 - NbN5 4 L2N6 3 - wN3 1 L2Y6 3 - Nw3 2 L2N6 3 - NM3 3 L2N6 3 - N6N5 4 L2Nl 3 - NlN3 2 L2Nl 3 - NlN3 3 L2N7 3 - N7N5 4
LON? 3 - NlN3 5 L2Nl 4 - NlN3 2 Lull 4 - N7N3 3 L2Nl 4 - WIN3 4 L2N7 4 - N7N3 5 L2Nl 0 - NlN4 1 L2Nl 1 - NAN4 1 L2N1 1 - NlN4 2 L2li2 0 - N2w 1 L2N2 1- WN4 1 L2N2 1 - )ItN4 2 LtN3 1 -Km40 L2R3 1 - N3N4 1 L2113 1 - N3N4 2 L2N3 2 - N3N4 1 L2)13 2 - ION4 i L21(3 2 - )131w 3 L2W4 1 - t&N4 0 L2N4 1 - MN4 1 L2M4 1 - MN4 2 L2M4 2 - MN+ 1 1214 2 - IWW 2 LZII4 2 - N4N4 3 L2WS 2 - MN4 1 L2H5 2 - NSN+ 2 L2N5 2 - B584 3 L2W5 3 - MN4 2
rNoRxun 2.90 URbNlUN Z-92 ANERICIUW z=95
18841.84 18788.06 18186.16 18797.24 Y8788.33 18797.24 18781.36 18800.76 18791.85 18800.76
‘Kf 70:.54 81.33 72.42 81.33 65.45 84.85 75.94 84.85
20026.21 132.49 21914.49 139.16 19969.75 76.03 21853.71 78.38 19968.40 74.61 21852.27 76.94 19978.49 84.77 21861.58 86.25 19969.21 75.49 21851.74 76.41 19978.49 84.77 21861.58 86.25 19961.98 68.26 21844.11 b8.18 19982.12 88.40 21865.38 90.05 19972.84 79.11 21855.54 80.21 19982.12 88.40 21865.38 90.05
18815.62 99.7% 18810.93 103.02 18815.23 99.31 16790.65 74.94 18792.90 76.98 18796.21 80.29 18792.50 76.59 18793.96 77.15 18799.46 83.54 18799.13 83.21
18799.16 03.25 18796.16 80.24 18802.55 O&b4 18802.22 86.51 18602.26 86834 Z8743.87 27.95 18724.48 8.57 18744.99 29.07 18739.89 10735.43
23.98 17.51
21880.87 105.55 21884.47 109.15 21880.44 105.11 21655.14 79.81 21857.36 82.04 21860.96 85.64 21856.93 81.60 21855.76 80.44 21862.73 87.40 21862.37 87.05
21862.41 87.08 21858.90 63.57 21865.87 90.54 21865.51 90.19 21865.55 90.22 21804.13 28.81 21783.38 8.05 21805.38 30.06 21800.84 25.51 21792.87 11.54
18727.87 10150.87 18720.51 18731.68 18730.12 18735.48 18729.92 18727.34 18725.14 18730.50 18?24.94 18716.35 18733.26 18720.98 18740.76 18717.05 18735.96 18721.67 18741.46 16717.95
18720.42 le724.77 18717.89 18717.61 18720.28 18724.63 18717.14 18712.77 18722.35 18720.21
10723.46 18?12.ao 18722.39 18720.25 18723.49 19048.89 19053.66 19052.82 19095.51 19040.43 19042.84 19042.80 19045.50 19049.28 19049.02 19052.80 19048.66 19055.32 19076.88 19066.05 19054.15
ftX:t-:z 19049:22 19052.41 19055.19 19055.51
11.96 14.95
4.60 15.76 14.20 19.56 14.00 11.42
9.23 lk.59
9.03 0.44
17.35 5.06
24.84 1.14
18.04 5.76
25.54 2.04
4.51 8.85 1.97 1.89 4.36 8.71 1.83
-i-:5 4:30
7.54 -3.11
6.47 4.33 7.58
z:-:: 82:ol
124.76 69.68 72.09 72.05 74.75 78.53 78.27 82.05 77.91 84.57
‘if 2: 83140 72.58 83.40 78.47 81.66 84.44 64.76
19997.25 20000.68 199%. a4 19972.07 19974.19 19977.61 19973.77 19973.70 19900.32 19979.98
lW80.02 lW76.a2 19983.44 19983.10 lWa3.13 19923.69 19903.74 19924.86 19919.94 19932.91 19907.20 19910.08 19899.40 19910.92 19909.31 19914.91 19909.16 19906.49 19904.23 19909.77 19904.02 19895.05 19912.51 19899.03 19920.24 19895.77 lW13.22
:z:-t: 198%:76
19899.33 19903.83 198W.70 198%.61 198W.Z9 19903.68 198%. 55 19691.37 19901.29 19899.10 19902.40 19891.41 19901.33 19899.13 19902.44 20241.93 202%. 87 202%. 00 20290.92 20233.10 20235.62 20234.19 20237.58 20241.51 20241.21 20245.14 20240.83 20247.39 20269.86 20258.56 202%. 79 2023S.50 20246.79 20240.98 20244.30 20247.18 20247.42
103.53 106.% 103.12
78.35 80.46 83.89 80.05 79.98 86.60 86.26
86.30 83.10 89.72 89.38 89.41
g-E 31:13 26.22 19.19
13.48
‘Z 17:20 15.65 21.19 15.44 12.76 10.51 lb.04 10.30
1.33 18.79 6.11
26.52 2.05
19.50
267:ii 30%
5.61 10.11
2.98 2.89 5.47
f:Z -2.35
7.57 5.38
8.68 -2.31
:-f: 0172
82.17 87.11 86.24
131.16 73.35 75.87 75.04 77.82 81.75 81.45 85.38 81.00 87.b4
110.10 98.81 87.03 75.74 87.03 81.22 84.56 87.43 87.66
21786.94 21789.54 21778.39 21790.44 21780.% 21794.75 21786.73 21785.91 21733.57 21719.37 21783.34 21773.73 21792 .OO 21778.75 218oo.oa 21774.47 21792.74 21?79.49 21800.83 21775.59
21778.33 21783.04 21775.55 21775.44
f;‘1::% 21775:40 21749.08 21780.30 21776.03
11.61 14.22
3.07 15.12 13.63 19.42 13.40 10.59
8.24 14.04
8.02 -1.60 16.67
5.42 24.76 -0.86 11.42
4.16
‘z-5: .
3.00 7.71 0.23 0.11 2.84 7.56 0.07
-5.44 4.97 2.70
21781.43 6.10 21769.92 -5.40 21760.34 5.01 21778.Ob 2.74 21781.46 6.14 22143.29 04.17 22148.49 89.97 22141.57 89.05 22196.11 137.59 22133.89 73.37 22136.58 78.06 22134.34 75.82 22137.27 78.76 22141.43 82.91 22141.07 82.55 22145.23 86.71 22 140.68 82.16 22147.04 88.52 22170.86 112.36 22158.87 100.35
22147.37 ea.05 22135.35 7b.84 22147.37 88.85 22140.09 81.57 22143.60 85.09 22146.66 88.14 22146.74 86.22
F. PARENTE et al. LX-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of ,Th, JJ, and &m (in eV) See page 387 for Explanation of Tables
TRAhSlTlON ENERGY SWIFT ENERGY SHlF7 ENERGY SHIFT
LZMS 3 - USN4 3 LZM 3 - MN4 5 LZNl 0 - hlN4 1 LZNl 1 - NlN4 1
19658.28 19053.55 18990.53 18991.62 18986.07 18988.45 18S76.43 18996.70 18904.79 18982.59
81.53 82.80 19.78
:z: 17:70
5.68 25.95 14.04 11.84
20250.30 90.55 20245.37 85.62 20181.28 21.53 20182.45 22.70 20176.67 16.92 20179.42 19.67 20166.69 6.93 20187.66 27.90 20175.10 15.35 20172.85 13.09
:I:::‘:: 22078: 52 22079.76 22073.69 22077.08 22043.17 22085*21 22071.65 22069.30
91.28 86.06 20.00 21.25 15.17 la.56
4.66 26.69 13.13 10.79
LZNI 1 - MN4 2 LZNZ C - WN41 LZU2 1 - NZN4 1 L2N2 1 - N2N4 2 L2N3 1 - N3W 0 LZN3 1 - MN4 1
L2N3 1 - h3N4 2 L2N3 2 - N3N4 1 L2N3 2 - N3N4 2 L2h3 2 - N3N4 3 LZN4 1 - MN1 0 L2N4 1 - N4N4 2 LZNS 2 - NM4 2 LZNS 2 - NSN4 1 LiN5 2 - MN+ 2 LZN5 2 - NSN4 3
LZN5 3 - N5N4 2 LZNS 3 - N5N4 3 LtN5 3 - N5N4 4 LtN6 2 - N6N4 1 L2N6 2 - NbN4 2 LZN6 2 - N6N4 3 LZN6 3 - NbN4 2 L2N6 3 - N6N4 3 LZN6 3 - WN4 4 LZN7 3 - k7N4 2
L2N7 3 - h7N4 3 LZN7 3 - N7N4 4
:3:: : - - N7N4 h7N4 3 4 LZN7 4 - h7ti 5 LZlu 0 - nub 2 LZHl 1 - Rw6 2 C2Wl 1 - Ml116 3 ~2~2 o - n2N6 2 LZM2 1 - M2N6 2 ~2Wi 1 - 112N6 3 L2113 1 - 113N6 1 L2113 1 - n3N6 2 L2W3 1 - M3N6 3 ~2~3 2 - M3N6 1 LZH3 2 - W3N6 2 ~2~3 2 - W3N6 3 L2W3 2 - N3N6 4 32lt : - - MN6 N4N6 2 1
Ltl4 1 -n4N63 LZll4 2 - MN6 1 LZM4 2 - MN6 2 L2114 2 - llSN6 3 L2II4 2 - WIN6 4 LZUS 2 - w5Nb 0 LZMS 2 - M5N6 1 L211E 2 - W5Nb 2 L2115 2 - W5N6 3 LZMS 2 - MN6 4
LZM5 3 - (15N6 1 LZMS 3 - W5N6 2 LZIlS 3 - MN6 3 LZH5 3 - 1(5N6 4 LZU5 3 - W5N6 5 LZNl 0 - MN6 2 LZNl 1 - NlN6 2 LPN1 1 - NlN6 3 L2N2 0 - N2Nb 2 LZN2 1 - NZNb 2
LZNZ I - h2Nb 3 LZW3 1 - NM16 1 LZN3 1 - N3N6 2 L2N3 1 - Y3N6 3 UN3 2 - MN6 1 L2NJ 2 - N3N6 2 L2N3 2 - N3& 3 L2N3 2 - N3N6 4 LZN4 1 - Nlwb 1 LZN4 1 - N4U6 2
LZN4 1 - N4N6 3 LZNI 2 - MU6 1 LZNI 2 - N4W 2 LZN4 2 - N4W 3 L2N4 2 - WNb 4 L2N5 2 - NJN6 0 L2N5 2 - N5N6 1
lwiRu4 z=so URANIUH z-92 AUERICIUM 2195
18987.95 17.20 20178.3s 18.63 18983.41 12.66 20173.70 13.94 1a9as.77 18.02 20179.23 19.47 18983.21 12.46 20173.49 13.73 18977.46 6.71 20167.62 7.86 18980.46 17.71 20179.00 19.25 18983.49 12.74 20173.86 14.11 18979.86 9.11 20170.00 10.24 18981.72 la.97 20171.92 12.16 18986.37 15.62 20176.72 16.97
f3% l :‘: 22076:OO 22069.98 22063.89 22075.84 22070.46 22066.20 22068.21 22073.26
16.58 11.69 17.48 11.46
5.36 17.33 11.94
7.68 9.70
14.7k
18982.41 18987.06 18980.0~
::9't:-;: .
:t:::-:: . 18910.71 18987.16 1897 1.54
11.66 20172.63 16.32 20177.44
9.26 20170.15 -5.21 20155.23 10.41 20171.41
a.11 20160.79 10.27 20171.27 -0.04 20160.64 16.41 20177.59
0.79 20161.42
12.88 17.69 10.39 -4.52
‘E . 11.51
0.88 17.83
1.67
22068.95 10.44 22074.00 15.49 2206b.3k 7.83 22050.77 -7.75 22067.79 9.27 22056.68 -1.84 22067.63 9.12 22056.52 -2.00 22074.23 15.71 22057.22 -1.30
18975.37 18978.77 18975.40 18978.80 18971.69 19423.8d 19428.65 19426.74 194669.92 19414.84 19419.07 19417.59 19420.54 19424.52 19421.11 19424.06 19420.04 19421.77 y$. g
.
19443.60 19416.13 19426.34 19420.88 19429.59 19422.51 19423.03 19427.20 19428.81 19430.19
19426.13 19430.29 19431.91 15433.29 19427.83 19361.51
::3::*;1 p&t&
. 19362.09 19355.25 19357.73 19362.07 19356.07 19358.54 19362.89 19356.00 19350.37 19365.99
19355.68 19345.39
:t:;i-l”: 19367115 1935 1.94 19351.49
4.62 8.02 4.66 8.05 0.94
79.02 83.79 81.88
125.06 69.98
74.21 72.73 75.67 79.66 76.25 79.20 83.18 76.91 93.99
104.20
20165.40 20168.92 20165.43 20168.96 20161.58 20636.53 20641.47 20639.47 20684.78 20626.97
$0;;:‘;; .
20632.20 20636.38 20632.76 20635.83 20640.01 206 33.43 20650.66 20661.40
5.64 9.17 5.68 9.21 1.82
82.91 87.85 85.85
‘Et . 77.76 75.50 79.57 82.76 79.13 82.20 86.39 79.61 97.03
107.78
22061.42 2.90 22065.14 6.62 22061.4b 2.94 22065.17 6.66 22057.36 -1.13 22568.41 85.21 22573.61 90.41 22571.48 88.28 22620.46 137.26 22558.24 75.04 22562.92 79.73 22559.10 75.90 22562.35 79.16 22566.03 83.64 22562.90 79.70 22566.15 82.96 22570.63 07.44 22563.59 80.40 22581.19 99.00 22592.74 109.54
98.74 71.26 81.48 76.01 84.73 77.65 78.17 82.33 83.95 85.33
20655.62 20627.59 20639.34 20632.56 20641.79 20633.59 20634.13 20638.51 20640.20 20641.65
20637.25 20641.63 20643.31 20644.77 20639.03 20571.68 20572.85 20169.62 20511.28 20564.54
20572.28 20565.00 20567.58 20572.07 20565.85 20568.43 20572.92 20565.80 20560.00 20576.19 2056% 56 20554.86 20571.04 20560.42 20517.37 20561.52 20561.07
102.00 73.97 84.71 78.93 88.16 79.97 80.51 84.88 86.57 88.03
83.62 88.00 89.69 91.15 85.41 18.05 19.22 15.99 23.66 10.92
18.66 11.38 13.96
:r-t: 14:ao 19.30 12.17
6.38 22.56 11.93
1.24 17.42
6.79 23.74
7.89 7.45
22586.48 22557.68 22569.23 22562.97 22572.96 22562.97 22563.53 22568.23 22570.03 22571.59
22566.67 22571.36 22573.16 22574.73 22568.58 2249+.30 22500.55 22497.14 22505.61 22491.76
22499.96 22491.93 22494.66 22499.37 22492.83 22495.S6 22500.27 22492.79 22486.76 22503.77 22492.66 22481*37 22498.39 22487=28 22504.99 22488.16 22487.72
103.29 74-49 86.03 79.78 09.77 79.78 80.33 85.03 86.83 88*40
81.27 85.43 87.04 88.43 82.97 lb.64 17.77 14.66
‘Ki .
17.23 10.39 12.86 17.21 11.21 13.68 18.02 11.14
5.50 21.12 10.82
0.53 16.15
5.85 22.29
7.08 6.62
83.47 88.17 89.97 91.54 85.38 16.11 17.36 13.94 22.47
a.57
lb.76 a.73
11.46 16.18
9.63 12.36 17.08
9.59 3.56
20.58 9.47
-1.82 15.19
4.06 21.79
4.96 4.53
443
444 P. PARENTE et al. L X-Ray satellite Energies
TABLE III. L X-Ray Satellite Energies of J’h, onU, and ,&m (in eV) See page 387 for Explanation of Tables
lR*lrSIrloN ErnERGY SHIFT ENERGY SlilFt ENEWY SHIFT
L/IS 2 - NSNb 2 UN5 2 -NSNb3
% f - - NW6 USNb 4 I UN5 3 - NS5w 2 LZNS 3 - N5Nb 3 LZNS 3 -NM64 LZNS 3 - NSN6 5 L2N6 2 - NbN6 0 L2N6 2 - NbN6 2 L2N6 2 - Nmb 4 L2N6 3 - NbNb 2 L2Nb 3 - NbNb 4 L2N7 3 - NlNb 1 L2N7 3 - NtNb 2 iiN 3 - NtN6 i L2Nt 3 - NtN6 4 L2Nt 3 - NTNb 5
‘L% f - - N7Nb NlNb 2 3 L2Nt 4 - NlNb 4 L2Nt 4 - NlNb 5 L2Nl 4 - NlNb 6 L311 I - UN1 0 L3112 1 - wuo L312 I - n2w I L3N2 2 - NOM1 1 LY(3 0 - M3Rl 1 L3113 1 - 13111 I L3N3 1 - 113111 2
L3N3 2 - U3c(l 1 L3N3 2 - WNl 2 L31(3 3 - M3Nl 2 L3114 0 - N4Ml 1 L3u4 1 -MI(ll L3M4 1 - MM1 2 L3N4 2 - MM1 1 L3114 2 - Il4Ml 2 L3M 3 - IMIll 2 L3I(S 1 - MN1 2
L3NS 2 - MU 2 LJHS 2 - NSMl 3 L3MS 3 - NSNl 2
::1: 2 - - Imu 115111 3 3 L3Nl 1 - Nllll 0
zi: : - - NM1 NW1 1 1
2% : :: y;; ':
t3:f : - - N2Ill WMl 1 L3N3 1 - wn11 L3N3 1 - NW1 2 L3N3 2 - N3Ml 1 L3N3 2 - Will 2 tgt ; - - MN11 N3Nl 2
L3N4 1 - Wfil 1 L3N4 l- NM12 L3N4 2 - N4Hl 1 L3N4 2 - Will 2 L3N4 3 - ww12 L3NS 1 - NSMl 2 L3WS 2 - NSRI 2
'. kg; f - NSNl 3 - Nsnr 2
L3NS 3 - NW1 3 L3NS 4 - .AS)ll 3 L3N6 1 - u6N12 L3U6 2 - Nblll 2 L3Nb 2 - NbNl 3 L3N6 3 - NbWl 2 L3N6 3 - N6Ml 3 L3Nb4-NM13 L3N7 2 - NtWl 3 L3N7 3 - hllll 3 L3N7 3 - N7111 4
‘L:“n: : - - NW1 NT111 3 4
L3N1 5 - N?Ml 4 L311 1 - NlW 1 L3Ml 2 - Ml112 0 L3Nl 2 - (11112 1 L3N2 2 - M2M2 0 LfN3 0 - u3m2 2 L3N3 1 - n3M2 1
19356.41 19357.97
:t131*2 19357:17 19356.117 19360.53 19353.67 19349.7b 19349.76 19349.16 19349.61 19349.61 19342.26
:z:*:t ;;w;;:;:
1934S:lb 19350.07 19350.37 19352.18
:::::*;x uu;$:;:
11151:60 11156.25
:::m * 11132.32 11177.33 11145.49 11156.65
:: ::i*:s . 11144.16 11135.31 11144.80 11149.9b
11.61 ZOSM. 24 13.11 ZOSbt. 60 14.91 2OSb9.73
7.32 20561.79 12.31 20566*95 13.81 20561). 51 15.67 20570*44
9.00 20563.53 4.89 2054b.44 4.119 20557.47 4.89 20511.19 4.75 20557.33 4.75 20561.65
-2.58 20551.50 0.26 20554.47. 5.17 20559.60 5.46 20559.92 7.29 20561.81 0.29 20554. SO 5.21 20559.64
5.51 20559.95 7.32 20561.64
-0.49 20553.69 34.50 llb36.80 69.89 11673.33 47.06 llb49.60 50.90 11653.19 55.55 1 lbS6.12 -0.22 11600.59 44.79 1164b.86
12.bl 14.16 lb.10
8.17 13.33 14.89 lb. 62
9.90 -7.19
3.85 8. I1 3. to 8.02
-2.12 0.M 5.98 6.29 8.16 0.88 b.01 6.33 8.22 O.Ob
36.20 72.01 49.20 53.28 57.61
0.07 46.35
32.95 79.23 46.35 57.78 57.34 46.11 45.14 33.92 45.62 SO. 75
22493.15
t2fffX 224&b 22493. (I9
tfttS-;t 2249o:ta 22472.23 22463.96 22408.51 22463.82 22468.42 22477.56 [email protected] 22486.20 22486.53 22488.54 22480.18 2248b.23
22486.57 224611.58 22479.90 12391.99 1243b.26 12411.67 12415.91 12419ebb 12359.43 12407.61
9.96 ll.bl 13.b4
5.27 10.70 12.35 14.38
1.09 -10.97
0.78 5.38 0.63 5.22
-5-62 -2.46
3.00 3.33 5.35
-2.42 3.64
3.37 5.30
-3.29 38-56 76.05 52.23 56.41 60.23
0.00 48.17
31.62 11633.47 76.b) 11679.74
44.79 llb4b. Ob 55.95 11658.29 55.42 11657.85 44.51 1164b.63 43.4b 1164S.bb 32.bl 11634.44 44.10 11646.34 49.2b 11651.27
12393.90 34.47 12442.08 82.65 12407.61 40.17 12419.63 60.40 12419.33 59.90 12407.54 48.11 12406.57 47.13 12394.10 35.34 12407.24 47.81 12411.96 52.53
11122.62 21.92 llb23.21 11139.17 38.4I 11640.32 11130.82 38.12 llb39.64 11155.38 54.68 116%. 96 11129.31 2S.bl llb30.19 11099.24 -1.46 11599.51 11113*34 12.64 11614.24 11111.21 10.51 11612.01 11108.35 7.65 11669.03 11106.74 b.04 llbOt.35
22.69 39.81 39.32 56.44 29.66 -1.00 13.72 11.50
:::
12362.71 23.28 12400.71 41.21 12400.09 4O.bb 12418.06 50.65 12390.12 30.69 12364.24 4.60 12379.95 20.51 12377.58 18.14 12371.71 12.27 12369.93 10.49
111c7.60 6.90 11608.26 11113.OO 12.30 llbl3.75 lllOO.b3 -0.07 llb00.94 11104.06 3.36 11bM.54 lllC7.18 6.41) 11607.71 11110.61 9.91 11611.31 11~04.06 3.36 11604.54 11107.4b b-lb llbO1.08 11107.27 6.57 11607.68 11101.43 5.73 llbO7.01
7.74 13.24
22 1.20
10.60 4.03 7.57 7.37 6.50
12370.90 12376.11
:fz’;: 12370:31 12374.16 123b7.01 12369.38 12369.15 12361.23
11.46 17.28
3.70 1.57
10.67 14.75
1.57 9.95 9.71 8.80
11104.79
::::s*:; 111oa:40 11102.67 11103.(15 11105.95 11101.13 11101.67 11100.55
4.09 11605.29 4.70 3.25 llbO4.43 3.91 5.71 11606.99 6.48 1.70 llbO9.15 8.63 1.96 11603.17 2.b6 3.15 llbO4.40 3.89 5.25 llbOb.* 6.06 6.43 11601.83 7.31 1.17 IlbO2.35 1.83
-0.15 11601.03 0.52
6.95 6.03 0.70
11.83 5.46 6.16 9.11
10.42 4.37 0.31
llC99.40 11097.49 llC96.b4 l1096.13 ZlO96.04
E’PX% 11099:03 11036.24 11091.70
-1.30 -3.21 -2.06 -3.97 -2.66 -2.75 -4.13 -lob7 -4&b -2.00
IlSW.82 11597.82 llSW.02 11597.02 ;:a~.;;
1159bhs 11599.43 11596.51 llSW.08
-0.69 -2.70 -l.w -3.49 -2.12 -2.21 -3.66 -1.09 -4.01 -1.44
llc9q.bo UNf.~
11498:69 11499.47 11531.66 11488.1b
-1.10 llbOO.02 -0-w 43.10 12025.2s 45.14 56.65 12039.08 53.97 33.83 120ls.55 35.44 34.61 12016.31 36.25 67.01 12049.42 b9.31 23.30 12004.23 24.11
123bb.36 12365.47
:gtpg: 123b4:90 12366.20 12368.55 12369.85
:gf;-E . 12358.99 12356.66 12351.12 12355.99 12357.49 12357.39 12355.62 12350.55
:f5E*:z .
12359.19 12810.14 12025.11 12100.50 [email protected] 12631.37 12787.89
-0.4s -2.57 -1.32 -3.45 -1.94 -2.04 -3.62 -0.09 -3.99 -1.2b
-0.24 47.71 b2.09 37.47 38.35 72.35 24.87
1Non1lm z-90 UR~IUH Z-92 ANERICILM Z=95
F. PARENTE et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of ,,,,Th, &, and &n (in eV) See page 387 for Explanation of Tables
THORIUII Z-90 URANIUM Z-92 AnERlClUM z-95
TRAh~I~IClN EhEAGY SHIFT ENERGY SHl FT ENERGY SHIFT
L3113 A - Mm2 2 L3M3 2 - mK! 1 LBM3 2 - n3n2 2 L3n3 3 - M3M2 1 L3i43 3 - W3Nt 2 L3n4 0 - mu2 2 L3W4 1 - (14112 1 L3N4 I - M4n2 2 13114 2 - n4M2 1 L3M4 2 - M4U2 2 L3N4 3 - M4M2 1 L314 3 - Mm2 2 L3115 1 - lSM2 2 L3W5 1 - nPn2 3 L3n5 2 - 115w 2 ~3119 2 - n5rr2 3 L3n5 3 - n51(2 2 L3M5 3 lm M5WZ 3 L3W5 4 - n5n2 2 L3n5 4 - M5M2 3
L3Nl 1 - hlW2 1 L3Nl 2 - Nlm2 0 LUll 2 - hlll2 1 L3N2 1 - Ni!M 1 L3Nt 2 - Ntll2 0 L3N2 2 - h2R2 1 L3N3 o - k3112 2 L3N3 1 - N3&? 1 L3N3 1 - h3n2 2 L3N3 2 - N3H2 1
Ly13 2 - N31(2 2 L3N3 3 - WI42 1 L3N3 3 - N3W 2 L3N4 0 - h4M2 2 L3N4 1 -lcIlul L3N4 1 - N4M2 2 L3h4 2 L3N4 i
- mn2 1 - N4112 2
L3N4 3 - N4I12 1 L3N4 3 - h4U2 2
L3N5 1 - N5bl2 2 L3N5 1 - N5H2 3 L3N5 2 - h5W 2 L3N5 2 - N5W2 3 L3N5 3 - N5n2 2 L3N5 3 - h5MZ 3 L3N5 4 - N5M2 2 L3N5 4 - NSM2 3 L3N6 1 - N6M2 2 L3N6 1 - h6W 3
11476.10 11.24 11520.00 55.14 11507.95 43.08 11488.16 23.30 11476.10 11.24 11535.16 70.29 11491.85 26.58 11534.63 69.77 11479.89 15.02 11522.67 57.81 11491.38 26.52 11534.17 69.31 11522.03 57.16 11514.49 49.63 11494.68 29.82 11487.15 22.28 11510.89 46.02 11503.35 38.49 11464.82 19.95 11471.28 12-42 11471.15 6.28 11470.96 6-09 11469.01 4.15 114ll.Ck 12*77 11462.51 -2.36 11416.50 13.64 11478.Cl 13.20 11467.00 2.14 11465.70 0.83 11473.55 8.69
11991.89 12037.11 12024.77 12004.23 11991.89 12052.65 12007.93 12052.21 11995.74 12040.02 12007.64 12051.92 12038.95 12031.18 12010.89 12003.11 12027.52 12019.75 12000.76 11992.98
11987.15 119a6.94 11984.92 11993.97 11976.11 11994.88 11994.26 11982.80
::E% .
:::tt'ff 11901:45 11988.12
::t:5-9': . 119a2.81 11985.33
: :‘gt;* ;: .
11989.49 119a9.79 11983.52 11982.81 119a6.94 11986.24 11911.66 11980.76 11977.81 11982.23
11.78 56.99 44.66 24.11 11.78 72.54 27.62 72.10 15.63 59.91 21.53 71.81 58.a4 51.06 30.78 23.00 47.41 39.63
E-t5 .
7.03 6.83 4.81
13.86 -2.01 14.76 14.15
2.69 1.33 9.46
:;;;;.g .
12809.62 12787.89 12775.15 12838.89 12791.79 12838.39 12779.03 12825.62 12791-50 12838.09 12823.99 12815.84 12794.74 12786.59 12812.11 12803.97 12784.15 12776.01
12.12 59.34 46.59 24.87 12.12 75.86 28.77 75.36 16900 62.60
28.47 75.06 60.96 52.81 31.71 23.56 49.09 40.94 21.12 12.98
12776.38 13.35 12776.16 13.13 12774.01 10.98 12781.04 18.01 12764*02 0.99 12782.01 18.98 12781.28 18.25 12769.14 6.11 12767.70 4.68 12716.31 13.29
11472.25 7.38 11467.00 2.14 11465.70 0.83 11472.Ctl 7.21 11469.48 4.62 11471.89 7.03 11467.00 2.14 11469.41 4.54 11469.46 4.60 11471.87 7.01
8.10 12714.87 2.69 12769.14 1.33 12167.70 8.01 12773.45 5.29 12770.52 7.81 12773.22 2.70 12167.76 5.22 12770.45 5.21 12710.50 7.79 12773.20
11.85 6.11 4.68
‘s-:x .
‘% 7:42 7.48
10.17
11473.45 11472.78 11467.71 11461.04 11471.00 11470.32 11465.?4 11465.06 11462.18 11466.41
8.59 7.91
9:: l 6.13 5.46 0.87 0.20
-:=:r: .
-3.84 0.39
-4.60 -0.37 -3.29
0.94 -0.90 -1.99 -2.28 -3.31
9.38 8.68 3.41 2.70 6.83 6.12 1.35 0.64
-z: .
-3.52 0.90
-4.31 0.11
-2.94 1.48
-0.31 -1.45 -1.75 -2.90
12775.65 12714.90 12769.28 12760.53 12772.93 12772.18 12767.08 12166.33 12760.91 12765.60
12.62 11.87
6.25 5.50 9.91 9.16 4.06 3.30
-f’:f .
-3.43 1.25
-4.31 0.38
-2.80 1.86
-0.01 -1.22 -1.58 -2.79
L3N6 2 - N6N2 2 L3N6 2 - N6M2 3 L3N6 3 - h6R2 2 L3N6 3 - N6Mt 3 L3N6 4 - MM2 2 L3N6 4 - N6W2 3 L3Nl 2 - hlM2 3 L3Nl 2 - NlM2 4 L3Nl 3 - h7M2 3 L3Nl 3 - h7H2 4
L3N-f 4 - NlW2 3 L3Nl 4 - hln2 4 L3N7 5 - N?K? 3 L3Nl 5 - h?!@ 4 L3Ml 1 - mm3 1 L3Ml 1 - Wlm3 2 L3w1 2 - win3 i L3111 2 - MlM3 2 L3*2 1 - )12n3 1 L3M2 1 - Pl2M3 2
L3112 2 - 82Hzl 1 L3n2 2 - M2113 2 L3M3 0 - 113w3 2 L3n3 l- &In3 2 I.3113 2 -NW430 L3*3 2 - n3R3 2 L3W 3 - EN43 2 L3M4 0 - n4n3 2 L3114 1 - Mm3 1 L3M4 1 - H4w3 2
13114 1 - #km3 3 L3H4 2 - ahn3 0 L3W4 2 - M4Ki 1 L3M4 2 - n4n3 2 L3)14 2 -wM33 L3114 3 - H4113 1 L3n4 3 - 114113 2
11461.03 11463.26 11460.27 11464.50 11461.58 11465.81 11463.97 11462.87 11462.59 11461.49
11976.60 11981.02 119A.80 11910.22 11977.18 11981.60 11979.81 11978.66 11978.36 11977.22
12759.60 12764.28 12758.72 12763.41 12760.22 12764.91 12763.02 12761-81 12761.44 12760.24
11462.25 -2.61 11978.01 -2.10 12761.07 -1.96 11461.16 -3.71 11976.87 -3.25 12759.86 -3.16 11463.16 -1.71 11978.96 -1.16 12762.09 -0.94 11462.06 -2.60 11977.81 -2.30 12760.80 -2.15 12275.94 25.40 12868.47 27.21 13836.12 29.59 12320.95 70.41 12934.75 73.48 13884.30 77.76 12266.59 16.04 12878.71 17.51 13825.88 19.34 12311.59 61.05 12925.05 63.78 13874.05 67.52 12303.34 52.79 12916.66 55.39 13865.51 58.98 12291.28 40.73 12904.32 43.05 13852.76 46.23
12307.18 56.63 12920.65 59.39 12295.12 44.58 12906.32 47.05 12327.48 76.94 12941.02 79.75 1227 1.71 21.17 12063.48 22.21 12279.29 20.74 12891.45 30.18 12303.56 53.01 129 16.36 55.09 12271.71 21.17 12613.46 22.21 i230a.25 57.70 12921.04 59.78 12296.05 45.51 12908.62 47.36 12307.72 57.18 12920.60 59.34
63.21 50.47 83.52 23.29
::-:: . 23.29 62.79 49.85 62.29
12295.34
:ff:t’; 12295:76 12263.38 12295.59 12301.26
44.80 35.92 33.55 45.22 32.h 45.04 56.71
12907.89
:EZ-:S 12900:41 12195.70 12908.33 12920.31
46.62 37.57 35.16 47.14 34.43 47.01 59.05
131)69.75 13657.00 13890.05 13829.82 13838.41 13864.29
:2:g*g UN,‘:::;
.
13655.62 13846.06 13643.62 13856.06 13842.85 13656.08 13868.53
49.08 39.53 37.08 49.53 36.32 49.55 61.99
445
446 F. PARFJNTE et al. L X-Ray Satellite Energies
TABLE III. L X-Bay Satellite Energies of ,Th, &J, and ,,Am (in eV) See page 387 for Explanation of Tables
TRANSITION EhERfiY SHIFT ENERCY WI FT ENERCY SHIFT
L3W4 3 - n4n3 3 L3115 1 - n5m3 1 A3113 1 - II5n3 2 ufis 1 - M5113 3 L3W5 2 - m5n3 I L3M5 2 - 115113 2 L3n5 2 - It5113 3 13m5 2 - a5n3 4 L3H5 3 - 115113 1 t.3115 3 - 115113 2
L3)rS 3 - n5n3 3 L3M5 3 - MS&l 4 LulS 4 - 115M3 2 L3N5 4 - n5Iu 3 I.3115 4 - nsn3 4 CiNi 1 - N113 1 L3Nl 1 - NM3 2 L3Nl 2 - h1113 1 L3Nl 2 - NM3 2 L3N2 l-Urn1
L3Ni 1 - 132113 2 L3N2 2 - WM 1 L3N2 2 - h2lU 2 L3N3 0 - N3n3 2
12294.88 44.33 12907.60 46.33 13855.32 4U.78 12285.57 35.02 12897.69 36.42 13844.63 38.09 12320.31 69.71 12933.34 72.08 13881.66 75.13 12297.99 47.44 12910.45 49.19 13857.91 51.38 12358.22 7.68 itab9.62 8.36 13815.38 8.84 12292.96 42.42 12905.28 44.01 13852.41 45.88 12270.64 20.10 12aa2.39 21.12 13828.66 22.13 12306.20 55.66 129 la.85 57.59 13866.49 59.95 12274.43 23.88 12886.26 24.99 13832.75 26.22 12309.17 51.62 12921.91 60.65 13869.79 63.26
~2286.85 12322.41 12283.10
::‘2;:-3: . 12254.11 12258.06 12251.98 12255.92 12256.59
12255.14
:f;~~-t~ 12259175 12251.29 12247.38 12256.29
:ftdl-z . 12253.93
36.30 12899.02 37.76 ll.Bb 12935.49 74.22 32.55 12895.15 33.118 10.23 12172.26 10.99 45.79 12908.72 47.46
3.51 12865.47 4.M 7.51 12169.59 a.32 1.43 12863.24 1.96 5.31 12861.36 6.10 6.05 12aba. 09 6.83
4.59 1284b.57 6.91 128b9.00 5.46 12867.47 9.20 12871.22 5.74 12867.68
-3.16 12858.41 5.74 12867.63
-7.11 12854.32 12.30 12814.46
3.39 12865.18
:-t:” l
6.21 9.95 6.42
-2.8b 6.42
-6.95 13.19
3.91
13846.04 13883.87 13841.83 13813.08 13855.91 13816.79 13821.19 13814.42
::t:t-g”f .
13b15.33 13817.94 13816.30 13820.21 138 lb.48 13806.64 13816.48 13802.38 13823.65 13813.81
39.50 77.33 35.29 11.54 49.37 10.26 14.66
7.89 12.29 10.43
8.19 11.40
9.77 13.68
9.94 0.10 9.94
-4.15 17.11
7.27
i3N3 1 -h3M31 L3N3 1 - Nfn3 2 L3N3 1 - h3lt3 3 L3N3 2 - h310 0 L3N3 2 - N3#3 1 L3N3 2 - h3W3 2
L3N3 2 - h3H3 3 LJN3 3 - 113113 1 L3N3 3 - h3n3 2 L3N3 3 - N3N3 3 L3N4 0 - MM3 2 ijN4 I - MM3 1 L3N4 1 - N*w3 2 L3N4 1 - WW3 3 L3N4 2 - N4M3 0 L3N4 2 - N4M3 1
L3N4 2 - WIN3 2 L3N4 2 - N4n3 3 L3N4 3 - W113 I L3N4 3 - N4113 2 L3h4 3 - WI43 3 t3N5 1 - N5113 1 L3N5 1 - k5113 2 LINS 1 - N5113 3 L3N5 2 - NW3 1 L3N5 2 - k5n3 2
L3N5 2 - N5ti 3 L3N5 2 - N5W3 4 L3N5 3 - N5*3 1 L3N5 3 - NSH3 2 L3N3 3 - h5113 3 LE5 3 - NM 4 L3N5 4 - k5lU 2 L3N5 4 - N5tl3 3 L3N5 4 - N5n3 4 L3Nb I - wblu 1 L3Nb 1 - Nbii3 2 L3Nb 1 - hbM3 3 L3Nb 2 - hbM3 1 L3Nb 2 - NbU3 2 L3Nb 2 - NbW3 3 L3Nb 2 - NbW3 4 L3Nb 3 - NbM3 1 L3Nb 3 - WM3 2 L3Nb 3 - NbM3 3 L3Nb 3 - NbM3 4
L3Nb 4 - hbM3 2 L3Nb 4 - 116113 3 L3Nb 4 - hbM3 4 L3Wl 2 - hlM3 2 L3N7 2 - N7M3 3 L3N7 2 - NtW3 4 L3N7 3 - L7lu 2 L3Nl 3 - N7lU 3 L3N7 3 - N7M3 4 L3N7 3 - h7W3 5 L3N7 4 - N7113 2 L3N7 4 - 67113 3 L3N7 4 - N7n3 4 L3N7 4 - h7M3 5 L3N7 5 - N71u 3 L3ht 5 - h7M3 4 L3N7 5 - N7M3 5
THORtIM
12262.84 12256.29 12247.38
:;xx”B-sx . 12254.65 12256.44
:;:tz . 12242.17
12255.96 12251.81 12254.63 12258.42 12254.27 12252.69 12256.98 12259.39 12247. lb 12253.24
12253.65 12252.49 12250.44 32256.53 12256.93
:ffE . 12251.67 12250.52 12245.03
12247.98 12251.96 12243.08 12246.83 12250.81 12244.54 12243.12 12246.07 12250.05 12243.78
12247.38 12251.36 12245.09 12241.64 12249.94 12243.72 12240.46 12248.5b 12241.34 i224a.91
12240.13 12248.23 12247.00 12248.58 12249.13 12247.91
z-90 ImINI un ~192 WCRlClUH z-95
12.30 128 74.46 13.19 13823.65 17.11 5.74 12867.68 6.42 13616.48 9.94
-3.16 12858.41 -2.% 13806.64 0.10 5.74 12861.68 6.42 13816.48 9.94 a.on 12010.15 8.89 13817.77 11.23 4=11 128%. 02 4.75 13813.38 6.84 7.89 12a 69.95 8.68 13817.53 11.00 3.75 12865.65 4.38 13812.98 6.45
-1.06 12860.64 -0.62 13801.61 1.14 1.63 12863.43 2.11 13810.61 4.07
5.41 1.27
4.09 7.87 3.73 2.35 8.44 a.84
-3.39 2.70
3.10 1.95
-0.11 5.98 6.39 5.23 0.72 1.13
-0.03 -5.51
-2.56 1.42
-6 .bb -3.72
0.21 -6.00 -1.42 -4.48 -0.49 -6.76
;;a$. ;g .
128bb.00 12869.93 12865.63 128b4.28
::x:~'~x . 12858.30 12864.63
3 . 4.73 8.66 4.36 3.01 9.34 9.75
-2.% 3.36
13814.77 13810.21 13al3.36 13317.51 13812.96 13812.31 13818.99 13819.42 13805.94 13812.62
:f:tf':f ltablI72 12868.05 12863.46 12067.27 120b2.57 12862.99 12861.79 12856.11
::ib-:$ 12854:90 12857.97 12162. lb 128 55.58 12854.10 12357.17 12661.36 12854.78
3.78 138i3.05 2.59 13811.81 0.46 13809.59 6.78 13816.27 7.20 13316.70 6.01 13815.46 1.31 13810.42 1.12 13810.85 0.53 13809.61
-5.16 13801.24
-2.08 13804.50 2.10 13808.98
-6.37 13799.92 -3.29 13803.18
0.89 13807.66 -5.69 13800.62 -7.17 13799.05 -4.09 13802.31
0.09 13806.79 -6.49 13799.74
6.23 3.68 6.82
10.98 6.43 5.17
12.4b 12.88 -0.60
6.09
6.51 5.27 3.ob 9.74
LO.17 8.93 3.89 4.32 3.07
-5.30
-2.04 2.44
-6.61 -3.35
1.13 -5.92 -7.48 -4.23
0.25 -6.79
-3.11 12853.55 -2.72 0.82 12862.73 1.47
-5.45 1285b.15 -5.11 -8.71 12652.73 -8.54 -0.60 12861.24 -0.03 -1.83 12839.93 -1.34
-10.09 12851.28 -9. w -1.98 12a59.79 -1.43 -3.21 12858.48 -2.78 -1.63 12860.19 -1.08
13803.81 13808.29 13801.25 13797.57 13806.68 13805.25 13795.99 13805.11 13303.67 13805.57
13795.62 13804.74 13803.30 13805 -20 13805.75
-2.73 1.75
-5.29 -8.97
0.15 -1.29
-10.54 -1.43 -2.36 -0.97
-10.42 -2.32 -3.54 -1.97 -1.41 -2.64
12350.93 -10.33 12119.44 -1.82 1205a.13 -3.13 12859.84 -1.43 lzabo. 39 -0.118 12859.08 -2.19 12860- 78 -0.48
-10.91 -1.80 -3.24 -1.34 -0.78
13804.31 -2.22 13806.21 -0.32 12249.48 -1.Ob
F. PARENTE et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of wTh, oeU, and &n (in eV) See page 387 for Explanation of Tables
TRANSITION
L3nl 1 - MlM 1 L3Wl 1 - MAW 2 L3Wl 2 - MAN4 1
‘;:z: : - lum 2 - RZM 1
L3M2 1 - llzlw 2 L3112 2 - 112M 1 L3N2 2 - 112l44 2 L3N3 0 - N3114 1 L3N3 1 - Nm4 0 L3M3 I - KM4 1 L3113 1 -IUMZ L3M3 2 - II3114 1 L3113 2 - M3M4 2 L3M3 2 - It3n4 3 I.3113 3 - 113M4 2 L3M3 3 - n3*4 3 L3M4 1 - N4M 0 L3114 1 - n4n4 2 L3114 2 - M114 2
L3H4 3 - m m 2 L3H5 1 - II5w4 1 L3M5 1 - wsn4 2 &s 2 - mm4 1 L3M5 2 - 1194 2 L3R5 2 - 115M 3 L3l45 3 - MS114 2 L3H5 3 - nsm 3 L3M5 3 - nsm 4 L3115 4 - n5M4 3
L3M5 4 - M5M4 4 L3N1 1 - h1114 1 L3Nl i - NH4 2 L3Nl 2 - hlM4 I L3Nl 2 - Nut4 2 L3N2 I- NM4 1 L3N2 1 - NZWI 2 L3N2 2 - htM4 1 L3N2 2 - hZM4 2 L3N3 C - N3W4 1
L3N3 1 - k3N4 0 L3N3 1 - h3M4 1 L3N3 1 - N3M4 2 L3N3 2 - h3W4 1 L3N3 2 - N3m 2 L3N3 2 - N3R4 3 L3N3 3 - N3M4 2 L3N3 3 - N3w1 3
%54 i -N4Ml - h4CI* 0
L3N4 1 - h4M4 1 L3N4 1 - N4M4 2 L3N4 2 - WM4 1 L3N4 2 - N4M4 2 L3N4 2 - N4M4 3 L3N4 3 - h4114 2 L3N4 3 - N4M4 3 L3N5 1 - h5M4 1 L3N5 1 - NSM 2 L3N5 2 - N5M4 1 L3k5 2 - NSI14 2 L3N5 2 - N5114 3 L3k5 3 - N5M4 2 A3N5 3 - N5t44 3 L3N5 3 - h514 4 A3N5 4 - &SW* 3 L3N5 4 - N5~4 4 L3NL 1 - NW4 1 L3N6 1 - N6W4 2 L3N6 2 - hi6W4 1 L3N6 2 - N6l44 2 L3N6 2 - P(6W4 3 C3N6 3 - h6M 2 L3N6 3 - ~6~4 3 L3N6 3 - h6M4 4 L3N6 4 - N6M4 3 L3N6 4 - N6114 4 L3N7 2 - k7H4 2 L3N7 2 - h7M4 3 L3N7 3 - N7U4 2
L3N7 3 - h7U4 3 L3N7 3 - N7M 4 L3N7 4 - N7M 3 L3N7 4 - h7114 4 L3N7 4 - N7W4 5 L3N7 5 - N7M 4 L3Nl 5 - hll4 5
TWRIun z-90 URANlUM z-92 AME(ERlCllM z-95
ENERGY SHIFT ENERGY SHIFT ENERGY SHIFT
12656.56 i2e45.70 12647.20 12136.34 12a32.00 ize74.70 12835.04 1287a.62 12676.80 12823.40
44.44 33.59 35.09 24.23 19.88 62.67
z: . 64.68 11.28
134a8.60 46.69 14466.50 49.81 13477.46 35.47 14454.71 38.02 13478.98 36= 99 14456.26 39.56 13467.76 25.77 14444.46 27.77 13463.3 1 21.32 14439. a9 23.20 13507.59 65.60 144a6.49 69.80 13467.31 25.31 14444.13 21.44 13511.59 69.59 14490.73 74.04 13509.11 67.11 14407.09 70.40 13453.97 11.98 14429.31 12.62
12a21.03 8.91 12832.69 20.58 12052.87 40.75 lza64.54 52.42 12852.16 40.04 12032.69 20.58 121120.31 8.20 12826.77 14.65 12655.81 43.70 i2643.e5 31.74
13451.57 13463.55
:;:i:-t; . 13463.72 13463.55 13450.84 13457.46 13487.33 13415.13
9-58 14426.86 21.56 14439.31 42.46 14461.33 54.44 14413.70 41.73 14460.57 21.56 14439.31
a.64 14426.10 15.46 14433.17 45.33 14464.29 33.14 14451.52
10.17 22.62 44.64 57.09 43.88
‘f*C . lb.48 47.60 34.83
12a55.35 12854.17 121159.61 12a26.83 12832.26 12044.63 12840.47 12860.84 12642.33 12834.77
43.23 42.06 47.49 14.71
fS% 36:35 40.72
:X-f; .
4.15 6.71 5.39 4.57 3.25 3.65 7.45 4.51 8.31
12.49
13487.04 45.04 14463.99 47.30 13485.51 43.52 14462.08 45.39 13491.11 49.12 14467.93 51.24 13457.45 15.45 14432.83 16.14 13463.05 21.06 14438.60 21.99 13475.76 33.76 14451.90 35.21 13479.66 31.69 14456.06 39.37 13492.39 50.40 14469.26 52.59 13473.38 31.38 14449.50 32.80 13465.63 23.63 14441.32 24.62
12816.26 12810.62 12817.50 12616.68 12815.37 12015.76 12815.56 12816.63 12820.43 12824.60
13446.61 4.62 1442 1.53 4.84 13449.44 7.45 14430.47 13.78 13440.07 6.01 14429.01 12.32 13447.22 5.22 14428.10 11.41 13445. a4 3. a5 14426.64 9.95 134466.27 4.27 14424.42 7.r3 134500.24 8.25 14428.67 11.98 13447.17 5.18 14425.40 8.70 13451.14 9.15 14429.64 12.95 13455.36 13.36 lti34.08 17.39
E::P-:f 12a15:54 12818.78 12822.09 12818.38 12815.54 12811.83 iza23.78 12ao2.o4
-1.93 0.12 3.43 6.67 9.98 6.27 3.43
-0.28 11.67
-10.08
-1.57 0.55 3.97 7.32
10.75 6.91 3.97 0.14
12.60 -10.06
1.59 3.81 7.41
10.98 14.58 10.55
7.41 3.37
15.25 -0.02
12823.59 12812.77 12821.11 ita10.29 12a21.11 12812.75 12823.57 12al6.83
::t:;-X: .
12614.06 12816.68 12811.34 121119.96 12815.50 12814.70 12810.25 12803.85 12814.07 12802.70
Il.48 0.66 9.00
-1.82 9.00 0.64
II-46 4.72 1.60
-1.02
13440.43 13442.54 13445.97 13449.32 13452.74 13448.90 13445.97 13442.13
::2-“9: .
13454.39 13443.10 13451.81 1344o.51 13451.81 13443.08 13454.37 13447.30 13450.38 13441.33
12.40 i-11 9.81
-1.48 9.81 1.09
12.38 5.31 8.38
-0.67
14418.28 la20.50 14424.10 14427.67 14431.27 14421.24 14424. lo 14420.01
:ttf;’ x: .
14431.71 14419.70 14428.94 14416.93 1442a.94 14419.68 14431.69 14424.96 14428.20 14418.59
15.02 3.00
12.25 0.24
12.25 2.90
15.00 S-27
11.51 1.90
1.94 13444.40 2.41 14421.83 5.14 4.56 13447.13 5.13 14424*71 8.02 5.23 i3447.83 5.83 14425.49 8.80 7.65 13450.55 8.56 14420-37 11.67 3-39 13445.92 3.93 14423.40 6.78 2.59 13445.07 3.08 14422.51 5.82
-1.67 13440.44 -1.55 14417.62 0.93 -a.26 13433.74 -8.26 14408.06 -8.63
1.95 13444.49 2.49 14419.61 2.91 -9.41 13432.53 -9.47 14406.75 -9.95
12al2*92 0.00 13443.28 1.28 14418.29 1.60 12807.45 -4.66 13431.49 -4.50 14412.03 -4.66 12a12.15 0.04 13442.48 0.48 14417.42 0.72 12906.69 -5.42 13436.69 -5.30 14411.16 -5.53 12815.41 3.30 13445.92 3.93 14421.15 4.46 12008.00 -4.11 13438.07 -3.92 14412.66 -4.03 12816.12 4.61 13441.30 5.31 14422.66 5.96 1207.51 -4.60 13437.73 -4.26 14412.37 -4.33 12a11.10 -1.01 13441.49 -0.51 14416.36 -0.33 12806.13 -5.98 13436.29 -5.71 14410.79 -5.90
12a09.72 -2.39 13440.04 -1.95 14414.79 -1.90 12812.10 -0.02 13442.53 0.54 14417.45 0.76 12809.39 -2.73 13439.69 -2.30 14414.42 -2.28 12811.76 -0.35 13442.18 0.19 14417.08 0.39 12806.56 -5.55 13436.73 -5.26 14411.25 -5.44 12812.67 0.55 13443.13 1.13 14410.09 1.40 izac7.47 -4.65 13437.67 -4.32 14412.27 -4.42
447
448 F. PARENTI et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of ,Th, s2U, and e&m (in eV) See page 387 for Explanation of Tables
TAANSITIW EhERGY WIFT ENERGY SHI Fl ENERGY SHIFT
L3Ul 1 - 111115 2 L31(1 2 - Ml)15 2 L3Wl 2 - Ml115 3 t3H2 1 - 112as 2 L3N2 2 - M2tt5 2 L31u 2 - nzns 3
13000.22 29.69 12990.87 20.33 13007.42 36.89 13012.00 41.47 13015.as 45.31 13001.31 37.71) 13016.14 45.60 12960.37 -10.17 12995.11 24.56 12992.21 21.66
13649.84 13640.14
:3”,x . 13666.06 13651.29 13665.91 13608.31 13644.03 13641.25
31.64 21.94 39.05 43.07 47.86 40.09 41.71 -9.83 25.83 23-05
14656.27 14646.02 14664.01 14669.22 16673.46 14665.31 14672.47 14612.24
:~tf’:: .
14683.75 14660.00 14649.28 14625.53 14663.36 14659.71 14659.21 14665.07 14646.45 14652.30 14665.52 14664.17 14677.99 14658.20 14644.44 11672.57 14643.32 14660.69 14671.71 14643.75 14633.91 14631.54 14633.80 14632.63 14633.60 14632.41 14634.96 14621.40 1462U.31 1462e.5a
14635.54 14635.19 14628.37 14628.01 14626.05 14627.17 14626.93 14630.45 14624.17 14627.66 14630.74 14630.43 14633.46 14628.27 14614.62 14638.69 14625.15 14632.32 146111.70 14635.91
34.22 23.97 41.97 47.17 51.41 43.27 SO.42 -9.80 27.23 24.67
L3M3 1 - (13115 2 L3)13 2 - 113n5 1
LH(3 2 - M3Iu 2 L31(3 2 - 3 H3MS L3M3 3 - Mm5 2 L3113 3 - luI(5 3 L3113 3 - 4 NM UN4 o- Mn5 1 L3M I - w4M5 1 L3M4 1 - MM5 2 L3IM 2 - MI5 1 L3M4 2 - 114115 2
L3M 2 -Mm53 L3n4 3 - wll5 2 L3M4 3 - M4M5 3 L3IM 3 - t44M5 4 L3M5 I - W5M5 0 Lm5 1 - 115115 2 L31(5 2 - 115115 2 L3115 3 - 115a5 2 L3N5 3 - MS115 4 L3115 4 - nsrrs 4
L3Nl 1 - NW5 2 L3Nl 2 - NM5 2 L3Nl 2 - hln5 3 L3N2 1 - N2M5 2 L3NZ 2 - N2a5 2 UN2 2 - NiM5 i L3N3 0 - N3M5 1 L3N3 1 - NW5 1 L3N3 1 - NM5 2 L3N3 2 - N3U5 1
L3N3 2 - N3M5 2 L3N3 2 - N3M5 3 L3N3 3 - NM5 2 LW3 3 - N3M5 3 L3N3 3 - h3R5 4 L3N4 0 - NW5 1 L3N4 1 - NM5 1 L3N4 1 - N4M5 2 L3N4 2 - N41(5 1 L3N4 2 - NM5 2
Lull 2 - NW5 3 L3N4 3 - hn5 2 L3N4 3 - NW5 3 L3N4 3 - h4~5 4 L3N5 1 - L5ll5 0 L3N5 1 - NW5 1 L3N5 1 - N5RS i L3N5 2 - N5115 1 L3N5 2 - NM5 2 L3N5 2 - NSM5 3
L3N5 3 - N5M5 2
:1:3 : - - NSM5 N9115 3 4
‘,E2 2 - - hill5 N5II5 3 4 L3N5 4 - NSNS 5 L3W 1 - NM5 0 t::: : - - N6M5 WM5 2 1
L3u6 2 - h6l45 1 L3N6 2 - WI15 2 L3N6 2 - N6115 3 L3N6 3 - NM5 2 LdNb 3 - N6115 3 L3N6 3 - 116115 4
‘,et - - N6n5 N6M5 3 4
:Et ; - - NW5 NtW 5 1 L3N7 2 - N7M5 2
L3N7 2 - N7111 3 L3N7 3 - 117115 2 L3N7 3 - NlM5 3 L3N7 3 - N7tUi 4 L3N7 4 - N7ll5 3 L3u7 4 - N7M5 4 L3N7 4 - N7115 5
THORIUN l-90 URlslIUll L-92 AmERICIum 2195
13G26.95 13004.63 12995.11 12972.79 13CC6.35 13004.52 13004.00 13009.43 12992.M 12991.47
13c09.84 13000.97 13021.34 13002.63 12990.67 13017.00 12919.65 M~.a$
1299O:ll 12975.35 12973.21 12575.24 12976.55 12977.41
:f;Tt’% 12966:41 12972.90 12572.96
12979.35 12979.03 12972.00 12972.47 12972.51 12972.07 12972.66 12915.97 12970.20 12973.39
56.42
if.2 2:25
37.a 33.99 33.47 38.90 21.50 26.94
39.31 39*44 50.81 32.30 20.13 46.47 L9.12
f?E 19:57
4.62 2.68 4.71 6.01 6.86 5.62 6.25
-4.12 2.27 2.43
13676.91 58.71 13654.02 35.02 13644.03 25.03 13621.13 2.93 13657.60 39.40 13653.69 35.49 13653.25 35.05 13658.05 40.65 13641.05 22.85 13646.66 28.46
61.70 37.95 27.23
3.48 41.31 37.66 31.17 43.02 24.40 30.25
41.16 40.36 53.07 34.05 21.20 46.25 20.1s 36.62 47.41 20.65
5.59 3.36 5.46 6.97 7.77 6.66
2:: 2.68 3.03
6.82 6.49 2.21 1.94 1.97 2=33 2.15 5-34
-0.34 2.66
9.66 9.32
f:E 2.56 2.99 2.79 6.11 0.20 3.52
12976.16 12975.35 12978.63 12973.69 12961.02 12912.70 i2s70.41 12976.96 12964.67 12960.24
12967.95 12963.52 12971.94 12578.26 12966.58 12975.91 12964.25 12964.16 12966.% 12963.63 1296T.m 1296S.40 12%7.03 12966.64 12970.03 12%9.95 12971.33 12965.87 12960.22 12%8.00
5.63 5.32 l .09 3.36
-9.51 12.17 -0.13
6.43 -s .a1
9.70
13659.36 13656.56 13671.27 13652.25 13639.40 13666* 45 13638.36 13655.02 13665.62 13638.05 13623.79 13621.56 13623.68 13625.07 13625.91 13624.06 13621.26 13614.46 13621.06 13621.23
13627.66 13627.52 13621.08 13620.74 13620.76 13621.19
:::f";;': 13618:40 13621.72 ;‘zb;;
pi;: :;
136OO:I)1 13631.37 lMl6.58 13625.39 136l2.60 13628.79
6.41 6.09 8.97 4.03
-9.39 13.17
0.36 1.19
-5.60 10.59
43.41 42.72 55.94 36.16 22.39 SO.12 21.27 39.65 49.67 21.70 11.86 9.49
11.75 10.56 11.55 10.36 12.93 -0.64
6-32 6.53
13.50 13.14
6.32 5.97 6.00 5.12 4.89 8.40 2.12 5.p4 e*b9 8.39
11.44 6.22
-7.23 16.64
3.10 10.27 -3.27 13.86
-2.38 13616.02 12.99 13632.21
1.30 13620.06 7.73 13626.74
-3.96 13614.58 5.37 13624.29
-6.20 lWl2.15 -5.76 lMl2.68 -1.59 13617.06 -6.91 13611.47 -2.75 13615.05 -1.13 13617.54 -3.51 13615~05 -1.69 13616.74 -0.51 13616.20 -0.5s 13618.32
0.80 13619.57 -4.66 136X3.83
- 10.32 13606.01 -1.74 13617.05
-2.18 14.01
::g -3.62
6.09 -6.05 -5.52 -1.14 -6.73 -2.35 -0.66 -3.15 -1.46
0.00 -0. Ga
l-37 -4.37
-10.19 -1.15
x**u’ . 12964.11 12973.75 12963.16 12973.41 12963.52
-5.04 13613.53 -4.67 -3.11 136l5.60 -2.60 -6.42 136l2.09 -6.11
3.21 13622.26 4.06 -6.75 13611-74 -6.46
2.08 13621.91 3.71 -7.01 13611.46 -6.74
14622.43 14639.56 14626.71 14633.71 14620.65 14631.13 14615.85 14616.41 14621.11 14615.10 146IP.79 14621.59 14616.92 14620.72 14622.29 14622.22 14623.79 14617.63 14611.31 14621.10 14617.27
:%3-I: l&26:66 14615.32
0.39 17.51 4.66
11.66 -1.19
9.08 -6.19 -5.64 -0.94 -6.95 -2.25 -0.45 -3.13 -1.33
0.24 0.18 1.74
-4.41 -10.68
-0.95 -4.78 -2.52 -6.35
4.61 -6.73
4.24 -7.05
F. PARENTE et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of soTh, &, and &n (in eV) See page 387 for Explanation of Tables
TRAEiSITlON ELEGY SHIFT ENERGY SHIFT ENERGY SHIFT
UN7 5 - NtWS 4 L3N7 5 - NT115 5 L3Nt 5 - NtMS 6 L3W1 1 - MlNl 0 L3Wl 1 - NAN1 1 L3111 2 - MN1 1 L3112 1 - W2Nl 0 L3M2 1 - 112Nl 1 L3W2 2 - M2Nl 1 L3113 0 - )13Nl 1
L3)13 1 - 13113 1
H3Nl 1 - M3Nl 2
L3N3 2 - M3Nl 1 iJM3 2 - M3Nl 2 L3113 3 - M3Nl 2 L3114 0 - H4Nl 1 L3M4 1 - WIN1 1 L3H4 1 - )14Nl 2 L3W4 2 - MN1 1 L3114 2 - U4Ul 2
L3W4 3 - M4Nl 2 L3115 1 - MN1 2 L3115 2 - MShl 2 L3115 2 - MSNl 3 L3MS 3 - MN1 2 L3115 3 - MSNI 3 L3WS 4 - MSNl 3 L3Nl 1 - NlNl 0 L3N2 1 - N2Nl 0 L3N2 1 - N2Nl 1 L3N2 2 - WNl 1 L3N3 0 - N3Nl 1 L3N3 1 - MN11 L3N3 1 - N3Nl 2 L3N3 2 - N3Nl 1 L3N3 2 - k;3Nl 2 L3N3 3 - h3Nl 2 L3N4 0 - N4Nl 1 L3N4 1 - NCNl 1 L3N4 1 - N4Nl 2
L3N4 2 - &Nl 1 L3N4 2 - N4N1 2 L3N4 3 - h4Nl 2 L3N5 1 - NSNl 2 L3NS 2 - hSN1 2 L3NS 2 - MN1 3 L3NS 3 - hSN1 2 L3NS 3 - RSNl 3 t il 1: : - - NSNl NbNl 2 3
LJNb 2 - NCNl 2 L3N6 2 - NbNl 3 L3N6 3 - h6Nl 2 L3Nb 3 - k6Nl 3 L3N6 4 -MN13 L3Nt 2 - NtNl 3 L3N7 3 - N7Nl 3 L3IU7 3 - N7Nl 4 L3Nt 4 - NtNl 3 L3N7 4 - NlNl 4
L3N7 5 - NlNl 4 LX41 1 - HlN2 1 L3Ml 2 - ntN2 0 L3Ml 2 - MlN2 1 Law 1 - MN2 1 L3112 2 - &?N2 0 L3112 2 - H2N2 1 L3R3 0 - mN2 2 L3M3 1 - M3NL 1 L3M3 1 - MN2 2
L3M3 2 - H3Nt 1 L3M3 2 - M3N2 2 L3R3 3 - N3N2 1 L3113 3 - M3N2 2 L3114 0 - MN2 2 L3U4 1 - MN2 1 L3M4 1 - II4N2 2 L3n4 2 - MN2 1 L3W4 2 - lI4NL 2 L3H4 3 - Il4N2 1
L3W4 3 -wN22 L3MS 1 - USN2 2 L3115 1 L3MS 2 'I :;z ; L3MS 2 - mN2 3 L3MS 3 - L3H5 3
USN2 2 - USN2 3
12974.32 12964.43 12974.62 lSC36.03 15050.12 1504c.77 15049.59 15041.64 15c51.40 15071.20
3.78 -6.11
4.09 11.00
2:: 04:64 82.70 86.54
lob.26
13622.85 4.65 14627.30 5.26 13612.40 -5.80 14616.01 -6.03 13623.21 5.01 1462t. 74 5.10 15793.15 74.32 16962.11 10.90 1seot*ee 09.05 16917.82 94.60 15790.18 79.35 16961 .St 04.36 15001.35 80.52 16971.33 94.11 15805.33 06.50 16915.10 91.97 15009*33 90.50 16919.42 96.21 15020.76 109.93 16998.21 114.99
15015.43 so.49 15111.22 52.39 15019.38 54.43 15115.34 56.51 15047.27 02.33 15eO4.10 85.27 lSC51.22 06.21 15800.22 89.39 15019.30 54.43 15715.34 56.51 15055.69 90.75 15812.69 93.06 15055.17 90.22 15812.25 93.42 1sc53.05 08.90 15810. et 92.01 15043.21 10.26 15800.05 81.22 15041.89 76.94 15790.68 79.85
15053.39 88.44 15061.87 96.93 15034.53 69.50 15036.55 71.61 15OSO.13 85.19 15052.76 01.81 15026.69 61.14 14976.02 11.81 14993.42 28.41 14982.40 11.46 14983.27 18.32 14911.45 12.51 14965.08 0.14 14985.59 20.65 14971.64 6.69 14992.14 27.20 14985.59 20.65 14982.55 17.61 14582.37 17.42 14576.10 11.83
91.75 100.03
71.96 74.00 88.60 90.71 63.95 13.25 30.49 19.m
19.99 13.78
0.91
2?i: 28~05 22.08 19.12 10.92 13.14
16931.90 54.76 16942.30 59.16 16972.45 09.24 16976.05 93*63 16942.38 59.16 16981.61 98.46 16981.11 97.96 16979.71 96.50 16968.41 es.19 16966.94 83.13
16979.41 96.20 16907.48 104.27 16950.23 75.01 16960.49 71.27 16915.61 92.39 16911.07 94.65 16949.90 66.69 16903.24 20.03 16910.78 35.56 16906.19 23.57
16901.76 24.54 16901.08 1t*et 16881.51 4.29 16909.51 26.30 16094.68 11.46 16916.68 33.41 16909.51 26.30 16905.33 22.12 16905.10 21.80 16899.03 15.81
14979.88 14574.30 14976.76 14915.9s 14ftC.21 14978.42 14913.49 149a1.10 y;f.z
.
14970.40 14961.37 14969.12 14966.61 14967.92 14966.% 14965.59 14969.73 14%5.25 14969.39
14910.30 15205.00 15197.26
:‘,:‘,‘5*:; 15203:4b 15219.46 15233.71 15119.39 15117.94 15211.24 15209.19 15119.39 15177.94 15217.92 15213.59 15217.39 15201.63 15205.43 1'5213.13
14.94 9.35
11.81 11.00
5.26 13.47
0.55 16.76 1;s:
.
5.53 2.42 4.17 1.66 2.91 2.02 0.64 4.18 0.31 4.45
15010*58 15010.06 15190.79 15192.91 15801.43 lSm9.54 15182.78 15132.08 15749.32 15737.92
15736.02 15732.61 15719.79 15740.91 1572b.57 15747.68 15740.91 15731.95 15131.15 15731.97
15735.16 15129.38 15731.9s
:3;::*:t 15733151 15128.50 15736.99 15131.51 1572b.69
16.33 10.56 13.12 12.23
6.25 14.14
9.67 18.16 12.68
7.06
15725.48 6.65 15122.25 3=42 15124.60 5.85 15121.45 2-62 15122.03 4.00 15121.81 2.98 15120.31 1.54 15124.61 5.04 15120.02 1.19 15724.32 5.49
16902.33 16896.26 16899.01 16898.01 16092.44 16901.34 16096.10 16904.99
:tiE*:t .
16890.61 lbwn. 19 16889.13 16886.32
:::::*t: . 16885.14 16089.69 16604.16 16889.31
19.12 13.04 15.19 15.60
9.23 10.12 12.88 21.78
'Zi .
1.39 3.98 6.52 3.10 4.61 3.50 1.92 6.47 1.55 6.10
5.35 15725.21 6.44 16090.33 7.12 18.58 15910.31 82.08 17152.11 81.06 70.84 15962.35 t*.O6 17143.11 78.60 69.22 15960.61 12.38 17141.92 76.81 09.19 15901.54 93.24 17164.21 99.10 11.04 15968.16 00.41 17150.46 85.35 93.03 15985.53 91.24 17168.45 103.34
101.29 15999.24 110.94 17161.11 116-00 52.91 15943.23 54.93 17122*52 57.41 51.52 15941.10 53.41 17120.89 ss.70 84.81 15976.11 et. 81 11156.99 91.88 03-36 15914.50 06.29 11155.36 90.25 52.91 15943.23 54.93 17122.52 57.41 51.52 15941.10 53.41 17120.09 55.18 91.49 lS902.07 94.57 17164.25 99.14 01.17 15910.4s 90.16 17159.50 94.39 90.91 15902.43 94.13 17163.75 90.64 75.21 159%. 26 77.91 17146.13 81-62 79.01 15910.23 81.94 17150.90 05-87 06.10 15910.16 89.81 11159.20 94.09
15216.93 90.50 13224.55 98.13 15223.49 91.07 15191.21 70110 lS196.15 69.12 15213.41 86.99 15212.35 es.93
15902.14 15909.52 15908.41 15961.45
93.04 101.22 100.11
13.16 72.05 89.19 88.68
17163.45 90.34 11110.57 105.46 17169.30 104.27 17141.32 16.21 17140.13 7S.02 11158.10 93.59 17157.51 92.40
lHOR1UW I.990 URANlUW L-92 AMERICIUM 2195
450 F. PARJSNTE et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of ,Th, &J, and ,&n (in eV) See page 387 for Explanation of Tables
TRAhs.1 TION EkEROY SHIFT ENERGY SlilFT ENERGY SHIFT
I.3113 4 - nsN2 2 L3n3 4 - nsN2 3 UN1 1 - NlNt 1 UN1 2 - NlN2 0 L3NI 2 - MN2 1 L3N2 2 - N2N2 0 L3W 0 - N3N2 2 L3N3 1 - h3Nt 1 L3N3 1 - N3N2 2 13X3 2 - k3N2 1
L3h3 2 - *3N2 2 L3N3 3 - N3N2 1 L3N3 3 - N3N2 2 L3N4 0 - WN2 2 L3N4 1 - N4N2 1 L3N4 I- N4N2 2 L3N4 2 - N4N2 1 L3N4 2 - MN2 2 L3N4 3 - N4N2 1 L3N4 3 - N4N2 2
L3N3 1 - i3N3 1
N3N2 2 - N3~2 3
L3N3 2 - N3N2 2 iiN 2 - N6N2 3 t,“N: ; - - NSN2 N3N2 3 2
:3:x t - - N3N2 NSN2 2 3
t;:: : - - N6N2 N6N2 2 3
L3N6 2 - N6N2 2 :% 3’ - - N6N2 NbN2 2 3
L3Nt 3 - WN2 3 L3N6 4 - NbN2 2 L3N6 4 - NbN2 3 L3N7 2 - NlN2 3 L3H7 2 - N7N2 4 L3N7 3 - NtN2 3 L3N7 3 - NlN2 4
L3h7 4 - NlN2 3 L3N7 4 - NlN2 4 L3h7 3 - N7N2 3 L3N7 3 - NlN2 4 L3Ml 1 - NlN3 1 L3Nl 1 - NlN3 2 L3Nl 2 - MlN3 1 i.3111 2 - MN3 2 L3N2 1 - N2N3 1 L3N2 1 - N2N3 2
L3112 2 - 112113 1 L3N2 2 - N2N3 2 L3N3 0 - N3N3 2 L3N3 1 - NSW 1 L3N3 1 LJW3 1 ': N3;; f
lu13 2 - N3N3 0 L3M3 2 - N3N3 1 ~3113 2 - r*N3 2 L3N3 2 - N3N3 3
L3N3 3 - H3N3 1
:,'I,' ; - - N3N3 N3N3 2 3 L3N4 0 - MN3 2 I.314 1 - N4W 1 L3N4 1 - N4NS 2 L3N4 1 - N4N3 3
131117.34 60.91 13931.32 63.03 13166.28 59.86 15950.21 61.92 13143.89 17.46 13907.30 19.00 13152.77 26.34 13916.47 21.18 13141.75 13.33 15903.07 16.78 13139.19 12.77 13902.49 14.19 13143.53 19.11 13901.84 20.54 13138.72 12.29 13901.73 13.44 13133.17 6.74 130%. 02 7.73 13143.27 18.83 13908.50 20.21
17130.74 17129.33 17091.16 17100.78 17088.79 17083.3 1 17090.01 17082.36
f;::;-33 *
17083.60 17082.36
:1’::9’f*:: 17073:ae 17093.91 17071.11 17093.14 17073.83 17093.89
63.63 64.44 26.03 35.67 23.68 18.40 24.90 17.23 11.32 24.42
13139.72 13136.72 11133.17
:;:3:-g 13132:10 15129.33 13149.62 13131.82 13132.08
13.29 15902.80 14.30 12.29 15901.73 13.44
6.74 13896.02 7.73 23.86 13915.93 27.63
3.41 13894.76 6.46 23.68 13915.73 27.43
2.93 13892.17 3.87 23.19 13913.14 24.84
3.39 15sw.74 6.44 23.66 139 13.71 27.41
18.49 17.25 11.32 31.03
8.76 30.00
6.00 28.03
8.74 30.78
13142.84 lb.42 15139.44 13.01 13137.10 10.68 15133.70 7.26 13140.39 13.96 13136.98 10.56 15133.13 5.70 15131.73 3.30 13128.33 1.91 13133~78 9.35
13906.08 13902.51 13900.11 15896.60
:;',xx-xI . 15898.03 13894.34 13691.13 13598.90
17.79 17086.51 21.40 14.28 17082.84 17.73 11.81 17080.14 13.03
8.30 17076.47 11.36 13.24 17083.80 18.69 11.72 17080.12 13.01
9.76 17077.93 12.84 6.24 17074.27 9.16 2.% 17068.30 3.39
lO.ba 17076.70 11.39
13127.18 0.73 13134.63 6.20 13126.42 -0.01 13133.86 7.44 15127.73 1.30 13135.17 6.73 15131.49 3.06 15129.33 2.91 13130.11 3.69 13127.% 1.33
13889.94 15897.69
:38”9y :: 15890:52 13898.27 13894.41 13692.17
:,‘x= ;: .
13892.62 15890.38 13893.36 13891.32 16204.60 16208.41 lb193*10 16196.70 16211.21 16209.83
1.65 17067.19 9.39 17075.38 0.83 17066.31 8.39 17074.5 1 2.23 17067.82 9.97 17076.01 6.12 17071.90 3.88 17069.32 4.67 17070.33 2.43 17067.93
2.08 10.27
1.20 9.40 2.71
‘X% . 4.41 5.22 2.84
15129.78 15127.62 13130.68 13128.53 15411.64 13413.08 13402.28 13403.72 13417.72 15416.42
:*3: 4:26 2.10
80.91 84.34 71.33 74.99 86.99 es.69
4.32 17069.93 4.84 2.08 17067.58 2.47 5.27 17070.97 5.86 3.03 17060.59 3.48
84.71 17434.26 90.21 88.32 17438.14 94.08 73.01 17424.02 79.96 78.62 17427.89 83.84 91.13 17441.20 E7.14 89.77 17439.76 95.71
13421.37 15420.26 13438.70 15391.a4 mf.9~
m$g
15414:17 13423.68
90.84 89.33
107.97 61.11 32.20 61.11 73.33 92.93 84.04 92.93
13391.84 61.11 13382.93 32.20 i3391ee4 61.11 lS426.b4- 93.91 13422.81 92.08 15426.12 93.39 13422.41 91.61 13406.8O 73.07 13410.83 80.12 13414.16 83.43
16215.21 16213.85 16231.92 16183.66 16174.38 16183.66 161%.40 lb2 16.34 16207.27 162 16.34
16183.66 16174.30 16183.66 16219.44 16213.57 16219.00 162 13.16 16201.26 16203.38 16206.81
95.12 17443.44 101.38 93.76 17444.00 99.94
111.83 17461.30 117.23 63.38 17410.92 66.86 34.30 17401.08 57.02 63.58 17410.92 66.86 76.31 17424.12 80.07 96.46 17445.39 101.33 87.18 17433.55 91.49 96.4b 17443.39 101.33
63.38 17410.92 66.86 34.30 17401 .oe 37.02 63.38 17410.92 66.86 99.33 17446.56 104.50 95.49 17444.46 100.41 98.91 17448.06 104.00 95.07 17444.03 99.97 81.18 17429.47 85.42 83.29 17431.69 87.64 86.72 17433.29 91.24
L3N4 2 - MN3 0 L3N4 2 - MN3 1 L3N4 2 - N4N3 2
L3N4 2 - M4N3 3 L3N4 3 - N4N3 1 L3N4 3 - N4N3 2 L3M 3 - WIN3 3 L3113 1 - NSN3 1 L3U3 1 - N3N3 2
;;:x : - - MN3 MSN3 3 1 L3115 2 - MN3 2 L3#5 2 - NSN3 3
Lul3 2 - N3N3 4 LM3 3 - NW3 1
:;:z 3 - - W3N3 N3N3 2 3 L3N5 3 - llSN3 4 L3)r3 4 - N3N3 2 L3N3 4 - WSN3 3
TNOlttUN 2190 UAhNIUN 2192 AWERICIUII z-95
13410.45 79.72 16262.97 15422.34 91.61 16213.28 13423.66 94.92 16218.71 13421.93 91.21 16214.87 13427.16 96.43 16219.76 13433.33 102.12 16226.38 13433.22 102.49 16236.04 13399.82 69.06 16191.69 13406.21 73.47 16191.31 13405.88 73.13 16197.97
13405.91 73.16 16198.01 15416.02 85.29 16208.33 13422.41 91.68 16214.93 13422.08 91.35 16214.61 13422.12 91.39 162 14.64 13396.34 63.61 16188.18 13396.01 65.28 16187.84
82.38 17431.26 87.20 95.20 17444.16 100.11 98.62 17447.76 103.70 94.78 17443.73 99.67 99.67 17448.23 104.17
106.29 17433 -20 111.14 103.95 17454.84 110.79
71.61 17416.96 74.92 78.23 17425.95 81.89 77.89 17425.59 81.54
77.92 17423.63 81.57 80.24 17436.36 92.30 94.86 17443.32 99.27 94.32 17442.97 98.91 94.66 17443.00 98.95 68.10 17413.36 71.31 67.76 17415.00 70.95
F. PARENTE et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of eoTh, &J, and &m (in eV) See page 387 for Explanation of Tables
1RALSI 1IIlN EhERGV SHIFT ENERGY WI Fl ENERGV SHIFT
L3)r5 4 - RSN3 4 L3Nl 1 - NlN3 1 L3Nl 1 - NlN3 2 L3Ni 2 - NlN3 1 L3Nl 2 - NlN3 2
35296.05 15339.31 15359.82 15337.18 153S7.69 15351.46 15345.91 15352.33 15346.77 15353.88
65.32 6.58
29.09 6.45
26.95
:f’:: 2&o 16.04 23.15
16107.08 67.79 17415.04 161M.02 9.93 17360.76 lb151.13 31.04 17302.77 16127.19 7.71 17350.39 16148.91 28.62 17380.40 16142.58 22.49 11371.25 1613b.07 16.78 11365.31 16143.48 23.39 17372.22 16137.77 17.68 17366.29 16144.85 24-n 17373.44
70.99 lb.71
2’:: . 34.34 27.19 21.26 28.16 22.23 29.38
~3~2 1 - NZN3 1 L3N2 1 - NZN3 2 L3N2 2 - NON3 1 L3N2 2 - NZN3 2 L3N3 0 - N3N3 2
L3N3 1 - h3N3 2 L3N3 2 - WN3 0 L3N3 2 - N3N3 2 L3N3 3 - N3N3 2 L3N4 0 - N4N3 2 L3N4 1 - H4N3 1 L3N4 1 - h4N3 2 L3N4 1 - N4N3 3 L3N4 2 - WN3 0 L3N4 2 - N4N3 1
L3N4 2 - N4N3 2 L3N4 2 - N4N3 3 L3N4 3 - N4N3 1 L3N4 3 - N4N3 2 L3N4 3 - N4N3 3 L3N5 1 - NSN3 i L3N5 1 - luSN3 2 L3N5 1 - NSN3 3 L3N5 2 - N5N3 1
L3N5 2 - NSN3 2
L3NS 2 - hSN3 3 L3N5 2 - NM3 4 L3N5 3 - NSN3 1 L3N5 3 - N5N3 2 L3N5 3 - NlN3 3 L3k5 3 - N5N3 4 L3N5 4 - N5N3 2 L3N5 4 - NSN3 3 L3N5 4 - NW3 4 L3N6 1 - N6N3 1
L3Nb 1 - h6N3 2 L3N6 1 - N6N3 3 L3N6 2 - h6NB 1 L3N6 2 - ~bN3 2 L3N6 2 - N6N3 3 L3h6 2 - N6N3 4 L3N6 3 - NbN3 1 L3N6 3 - NbN3 2 L3N6 3 - MN3 3 L3N6 3 - h6N3 4
L3N6 4 - NbN3 2 L3NC 4 - NbN3 3 ~3~6 4 - NbN3 4 L3Nl 2 - NlN3 2 L3Nl 2 - NlN3 3 L3Nl 2 - hlN3 4 L3Nl 3 - N7W 2 L3N7 3 - hlN3 3 L3N7 3 - N7N3 4 L3N7 3 - h7N3 5
L3Nl 4 - h7N3 2 L3Nl 4 - N7N3 3 L3Nl 4 - NlN3 4 L3N7 4 - h7N3 5 L3Nl 5 - N7N3 3 L3N7 5 - h7W 4 L3h7 5 - N7N3 5 L3Wi 1 - NlN4 1 L3Wl 1 - MlN4 2 L3Ml 2 - lllN4 1
L311 2 - NlN4 2 L3ML 1 - WZN4 1 L3H2 1 - IZM 2 L3112 2 - RZN4 1 L3(12 2 - M2N4 2 L3M3 0 - wN4 1 13W3 1 - H3N4 0 L3113 1 - R3N4 1 L3H3 1 - M3N4 2 L313 2 - n3N4 1 L3H3 2 - mh4 2 L3U3 2 - R3N4 3 L3M3 3 - mN4 2 LU13 3 - M3N4 3 L3114 0 - lwN4 1 L3114 1 - MN4 0 L3114 1 - I14N4 1
THORIUM z-90 URANIUM z-92 ANER ICXUM Z-95
15341.51 10.78 16132.04 il.95 15336.89 6.16 16127*29 7.20 13348.06 17.33 16138.81 10.72 15341.51 10.78 16132.04 11.95 15348.90 18.16 16139.79 19.71 15343.35 12.62 iblW*Ob 13.97 15348.71 17.98 16139.59 19.51 13343.15 12.42 16133.85 13.76 15343.06 12.33 16133.72 13.b4 15340.87 10.13 16131.47 11.38
:rE:-:: 17367:03 17359.86 17366.85 17360.83 17366.62 17360.60 17360.40 17358.ab
15.80 10.93 22.90 15.80 22.80 16.77 22.57 lb.55 16.35 14.00
1534b.23 15340.b7 15343.33 15346.69 15343.13
:;:g=;; .
::3;:*:: 1534Ao
15334.31
:;::2-it . 15349.08 15337.59
:::*5:*:2e 15332:33 15352.12 15334.30
15.50 16137.00 lb.92 17363.85 19.80 9.93 16131.26 11.17 17357.83 13.78
12.60 16134.04 13.95 17360.80 lb*75 11.96 16139.57 19.49 17366.60 22.55 12.40 16133.83 13.74 17360.58 lb.53
4.69 16125.83 5.74 17352.92 8.86 21.60 16143.28 23.20 17371.19 27-13
9.32 16130.61 10.52 17357.93 13.88 -1.04 16119.86 -0.23 17346.55 2.49 15.86 16137.31 17.22 17364.82 20.76
3.58 16124.64 23-36 16145.04
2.24 16123.28 19.15 16140.73
6.86 16128.06 26.64 16148.46 13.89 16135.25
1.60 16122.58 21.39 16142.98
3.56 lbl24.7b
4.55 24.95
3.19. 20.b4
1.97 28.38
%91 22:90
4.67
17351.56 7.51 17312.90 28.85 17350.20 6.15 17360.47 24.42 17355.22 ll*lb 17376.56 32.50 17362.62 18.57 17349.37 5.31 17370.70 26.65 17349.48 5.43
15336.77 6.04 15341.11 10.38 15333.15 2.41 15335.62 4.88 15339.96 9.23 15333.08 2.35 15332.38 1.65 15334.86 4.12
:;SXz’-f! . :-rg’ .
15336.17 5.43 15340.51 9.78 15333.c3 2.90 15329.18 -1.56 15338.76 8.03 1533b.CZ 5.89 lS327.80 -2.93 14337.39 6.65 15335.25 4.51 15330.49 7.76
16127.33 16131.83 16123.55 lbi26.12 16130.62 16123.49 16122.75 16125.32 161 p92 161 2.69
16126.70 16131.20 16124.07 16119.44 16129.36 16127.16 16117.99 ib127.91 lb125.72 16129.02
1.25 17352.22 11.74 17356.93
3.46 17348.17 b.C4 17350.90
10.53 17355.61 3.41 17348.13 2.66 17347*29 5.24 17350.03 9.73 17354.74 2.61 17347.25
b.b2 17351.53 11.11 17356.24
3.98 17348.76 -0.65 17343.85
9.27 17354.26 7. OS 17351.99
-2.10 17342.27 7.82 17352 .b9 5.63 17350.42 8.94 17353.81
8.16 12.88
4.12 6.85
11.56 4.08 3.24 5.97
‘9 fo’ .
7.40
‘f% -0:21 10.21
7.94 -1.78
0.63 6.36 9.76
15327.46 15337.05 15334.91 15338.15
:3:x 15339:ab 15668.17 15667.34 15b56.02
16117.64 -2.44 17341.90 -2.1s 16127.56 7.48 17352.32 8.26 16125.37 5.28 11350.04 5.99 16128.68 8.59 17353.44 9.39 16128.51 8.42 17353.33 9.28 lb124.31 6.23 17351.06 7.00 16129.62 9.53 17354.46 10.40 16472.50 86.38 17719.07 91.83 16471.63 85.51 17718.15 90.91 16462.60 76.68 17708.83 81.58
15657.96 15670.10 15672.50 15673.94 mS';.g
. 15637.40 isb40.09 15643.08 15671.93
15675.72 15671.57 15643.88 15439.73 15614.50 15662.50 15t.a4.04
-3.27 6.32 4.18 7.42 7.22 5.a.5 8.33
82.61
%13 .
72.41 84.53 86.94 88.37 90.78
110.30 51.83 54.53 58.31 %.37
90.15 86.01 58.31 54.11 99.02 76.94 98.49
16461.93 16474.56 16477.08 16475.56 16411.08 16500.29 16439.96 16442.75 1644b.b8 16415.63 16479.56 16475.26 16446.68 16442.30 16488.62 16465.71 164m.17
75.81 08.44 90.% 92. CI 94.95
114.16 53.64 56.63 60.56 89.51 93.44
t;=;t 56:25
102.49 79.59
102.05
17707.91 80.66 17721.37 94.13 17124.01 96.82 17725.61 90.37 17721.31 101.06 17746.04 119.59 17b83.bl Sb.43 17686,bl 59.37 17690.77 63.52 17721.08 93.84
11725.24 97.99 1772Oa b9 93.44 17690.77 63.52 17686.22 58.97 11734.96 107.72 17710.62 83-38 17734.46 107.22
451
452 P. PARENT% et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of ,Th, &J, and &m (in eV)
laAhSIlIoN EkERGV SWIFT ENERGV SHIFT ENERGV SHIFT
LBII4 1 - m m 2 L3W 2 - nn 1 L3W4 2 - MN4 2 LM4 2 - MW4 3 L3114 3 - MN4 2 L3W4 3 - m4N4 3
15613.24 15612.10 lS661.26 15612.10
:z~=37 lS6&2 15bab.51 15655.97 lSb59.17
15661.94 15675.37 15619.14 15613.41
:1::=sI 15606:411 15600.90 lSbO4.33 1559tI.76
(1.67 16476.m 8b.53 16415.98 15.71 16464.69 06.53 16475.98 81.21 16416.59 98.03 164n1.86 91.75 16417.03
100.95 16490.36 70.41 16458.97 73 .bO 16462.29 76.37 16465.18 69.60 16418.93 92.58 16481.61 a1.34 16476.88 66.51 lb455.05 61.71 16450.12 20.92 16408.73 15.33 16402.95 10.18 lMc6.50 13.20 16400.72
90.76 89.06 78.57 89.86 90.47
101.76 100.91 104.23
12.85 76.11
19.06 92.Ul 95.69
X”,% . 64.00 22.61 16.83 20.38 14.60
17122.45 17721.70 17709.66 17721.70 17722.15
:,‘;3t-:: 1773b:ol 17703.30 11706.82 17709.87 17724.20 17727.25 17722.03 11699.29 17694.07 17657.15 11651.08 17654.76 17648.11
95.21 94.45 82.44 94.45 94.91
106.92 105.31 108.83
16.06 79.51
L3ws 1 - nSw4 1 t.3111 1 - MN4 2 L3M 2 - ION4 1 L3115 2 - RSN4 2
L3flS 2 - IaH4 3 L3115 3 - IIs&4 2 L3115 3 - N5N4 3 L3WS 3 - MN4 4 L3)rS 4 - MN4 3 LYIS 4 - MN4 4 L3Nl 1 - klN4 1 L3N1 1 - NIN4 2 L3WI 2 - NW4 1 L3Nl 2 - NlN4 2
L3N2 1 -N2Wl L3W2 1 - W2N4 2 L3N2 2 - h2trc* 1 L3N2 2 - k2NI 2 L3N3 0 - N3)lC 1 L3N3 1 - k3N4 0 iJN3 1 - N3N4 1 L3W3 1 - N3N4 2 L3N3 2 - WN4 1 L3N3 2 - N3N4 2
L3N3 2 - k3N4 3 L3N3 3 - N3M4 2
t;:: : - - N3N4 nN4 3 0 L3N4 1 - WIN4 2 L3N4 2 -mn+t
‘,i:: : -N4N42 - NSN41 L3NS 1 - hSN4 2 L3N5 2 - NSN4 1 L3NS 2 - km4 2 :33:5 f - - NSM4 MN4 2 3
LfNS 3 - NSN4 3 L3N5 3 - MN4 4 L3NS 4 - MN4 3 L3NS 4 - IS&4 4 L3Nb 1 - NbN4 1 L3Wb 1 - NbN4 2 L3Nb 2 - Ma4 1 L3NC 2 -MN42 L3Nb 2 - NbN4 3 L3Nb 3 - nbw 2 L3Nb 3 - MN4 3 L3N6 3 - NbN4 4 L3Ub 4 - Nbn4 3 L3Nb 4 -NbM44 L3N7 2 - k7NI 2 L3Nl 2 - WIN4 3 L3N7 3 - hlN4 2
L3Nl 3 - N7N4 3 ~3~7 3-NlW4
::z : - mm4 3
i5N7 -WIN44
4 - NtN4 5 L3N7 5 - Nlw 4 E”,‘, : - - Ill15 NlN4 2 S
%: 2' - - BINS IrlNS 2 3
~3)12 1 L31(2 2 1 i% f ~312 2 - nzns 3
‘,S$ : - - nurs m385 1 1 L3(13 1 - 43NS 2 L3N3 2 - IF)ws 1 ;3:: s - - M3NS wN45 3 2
L3113 3 - n3w5 2
L3n3 3 - MM5 3
~SS x :$g: L3M4 1 -MN5 1 L3Pl4 1 - N4N5 2 L31(4 2 -WINS 1 L3lM 2 - WNS 2
See page 387 for Explanation of Tables
TkCRIUW L-90 URANIUM 2=92 AMERICIW 7.995
82.63 96.95
100.01 94.79 12.04 66.83 29.90 23.83 21.53 21.46
15594.47 8.90 16396.35 10.23 17641.55 14.31 15614.74 29.17 lb411.32 31.20 176b3.58 3b.34 1519%33 9.77 16397.26 11.14 11642.52 15.28 lS615.60 30.03 16416.23 32.10 libb4.55 37.31 15605.61 to*04 lb407.62 21.50 17653.20 25.95 lSS9S.43 9.87 16391.06 10.94 1x41.96 14.72 15593.24 7.67 16394.61 8.69 17b39.62 12.37 19593.60 13.03 16400.34 14.22 ltb45.41 18.17 15599.79 14.22 16401.58 lS.46 17b46.79 19.55 15405.15 19.56 16407.12 21.00 17652.59 25.34
15599.59 lSS991.60 15593.04 15590.69 15601.69 15599.21 lSb01.67 15590.93 15600.79 lSS93.19 15s95.05 15599.70 155911.33 15602.98 15595.93 lJS91.73 1s590.61 lss31.8a 15591.50 15580.73
14.02 13.03
7.47 5.13
lb.13
:,‘-:: $;;
7163 9.48
14.13 12.77 17.42 10.37 12.16
5.11 -3.68 11.94 ‘4.63
10.79 0.48
10.03 -0.20 16.17
1.03 11.4s
2.38 6.21 1.01
16401.31
:g:=t: . lb392.30 16403.69 lb401.10 16403.07 16400.77 16402.69 16394.60
16396.72 lb401.53 16400.14 16401.95 16397.66 16399.47 16392.18 lb383.23 16399.41 16362.02
15.25 14.22
8.40 6.18
17.57 14.98 17.55 14.65 lb.57
8-68 10.60 15.41 14.02 18.03 11.53 13.35
b.Ob -2.89 13.29 -4.10
17646.57 17645.41 17639.39 11635.75 17641.11 llb44.95 17641.69 17645.30
:;:;g”t: .
17641.03 17646.00 17644.bI 17649.13 17642.08 17643.68 17636.22 17624.66 17641.68 17623.35
19.32 19.17
'f-2 20:47 17.70 20.45 18.14
::=:; .
13.79 18.83 17.44 22.49 14.83 16.64
0.98 -2.58 14.44
-3.90
15596.35 lSS8b.OS 15595.S9 1558S.29 15601.73 MM:;.2
lsf67:95 15591.78 lSS36.57
16391.20 12.00 16507.51 1.45 16397.40 11.28 1638b.78 0.65 16403.73 11.61 16308.15 2.03 1640S.11 16.90 16389.49 3.37 16393.4b 7.34 16386.04 1.92
13.12 2.01
12.25 1.14
LG.05
2’0% 3.94 8.14 2.36
15590.40 15593. a0 15590.07 lS593.46 iSsab.35 15594.37 15581.26 157OS.69 15696.33 15697.Sl
17640.37 11629.25 11639.49 17626.38 17646.09 17629.88 17647.59 17631.18 17b35.38 17629.60 17633.81 llb31.53 17633.44 11637.15 17629.36 17638.17 17430.38 17770.04 177S9.80 17761.10
15710.45 15714.29 15713.62 15130.49 15614.71 lSb~Q.80 15106.56 lS712.65 lS113.05 lSbIO.90 15631.21 15680.05 14114.20 15713.68 15716.64 15101.72 15104.66
4.113 0.23 4.50 1.90 0.79 8.80 1.69
82.40 13.05 74.23
01.16 91.01 90.33
107.20 51.43 S7.52
tx .9:77 57.S2
57.92 56.17 90.92 90.39
E-Z . 61.40
16392.02 16395.54 16391.61 16395.20 16387.81 16396.14 16366.76 165 15. lb lbSOS.46 16596.69
:Sfi-X; U&f
16462:41 144m.13 16515.29 16521.61 16522.03 164W.13
5.90 9.42 5.55 9.00 1.69
10.02 2.b4
ab.3b
z:,” .
91.25 95.25 94.54
111.14 53.60 59.93 bb.48 92.81 93.22 59.93
17llS.36
:l’;l’xi 17794163 17734.40 17741.08 17766.07 17775.55 1777S.98 1714l.OB
1::z 6.19
9.91 2.12
10.92 3.13
91.90 81.66 02.96
97.21 101.45 100.70 1 lb.48
56.26 62.94 90.73 97.41 91.64 62.94
164R9.15 60.34 16417.96 59.15 16522.92 94.12 16522.40 93.bG lbS2S.% 9b.lb lb9 10.29 a.49 16513.37 84.sb
17741.51 17140.21 17777.07 11776.57 17119.82
63.37 62.12 98.92 911.43
lOl.bl 85&b 88.90
F. PARFiNTE et al. L X-Ray satellite Energies
TABLE III. L X-Ray Satellite Energies of &Fh, wU, and &rn (in eV) See page 387 for Explanation of Tables
WORIUN z-90 URWlUI( 2-92 m3llcIw4 L-95
I.3114 2 - M4N5 3 L3N4 3 - mws 2 L3N4 3 - ml45 3 L3N4 3 -mNS4 L3N5 1 - msw 0 2s’ : - - MN5 M5N5 2 1
LUlS 2 - NSNS 1 Lull 2 - MN5 2 L3M4 2 - MNS 3
L3)lS 3 - MN5 2 L3NS 3 - NSNS 3 L3NS 3 - WSN5 4 L3115 4 - MN5 3 L3U5 4 - mw$ 4 L3115 4 - MSNS 5
z: f - - WINS NlNS 2 2 L3Nl 2 - NlNS 3 L3N2 1 - N2NS 2
L3N2 2 - N2NS 2 L3N2 2 - wns 3 L3N3 0 - N3NS 1 L3&3 1 - (r3WS 1
lS701.31 15716.16 lstia.la 11114.34
:zx . rsti7.43 15702.38 15690.08 lS705.65
15706.29 15721.06
:%*~x lS604:lO 15693.43
:K-2 1%&2 lS641.86
84.02 92.69 95.52 91.06 94.76
106.44 94.14 19.09
tt l :; . 13.00 91.57
xx 60:92 70.1s 13.17 11.03 19.24 l&S6
M&.$
16527: 99 16523.36 16516.26 lIS38.01 16126.02 16510.75 16497.96 16514.15 16514.59 16S%.t9 16515.63 16101.02 16491.67 16501.57 16443.43 16441.21 16449.b9 16449.63
67.29 17769.92 96.41 17779.52 99.19 17782.39 94.56 17t77.50 (11.46 17769.29
110.01 17793.17 97.22 17779.63 61.95 17763.92 69.16 1tt50.31)
'OS.35 11767.50 65.19 11767.15
101.90 itt64.89 69.93 177t2.02 -6.22 177W.92 63.% 17744.06 72.11 17754.34 14.63 17699.72 12.40 17691.35 20.69 17706.24 20.26 17703.0s
91.70 01.37 04.2S
'99.36 91.15
115.02 LOl.48
es.77 72.23 19.36 89.61
'op~*~~ 79:r7 6S.92 76.19 2l.SO 19.21 28.10 24.91
15642.72 ls639.32
:;:2:: . 15636.61 lS626.25 1%45.16 1~632.67 15639.61 15626.32
:x lOhI -1.59
'X 2;:::
15132 3.04
16449.98 21.16 17704.02 16446.41 17.61 lnoa.34 16440.60 11.99 17694.15 16421.96 -0.a2 11680.57 16445.44 16.63 17698.84 16434.15 s.95 11667.74 16452.21 23.41 1ttO6.01 16439.54 10.73 17692.16 lb44S.44 16.63 11691.94 16432.16 3.96 17605.S6
25.68 22.20 16.00
2.42 20.10
2::: 14.61 20.70
7.44
L3N3 I - WINS 2 L3N3 2 - N3l6 1 L3E3 2 - WN5 2 L3N3 2 - N3NS 3 L3N3 3 - MW 2 L3N3 3 - N3NS 3
L3N3 3 - N3NS 4 L3u4 a - ws 1 L3N4 1 - N4NS 1 L3N4 1 - h4NS 2 L3N4 2 - WY5 1 L3N4 2 - N4Ns 2 L3N4 i - was 3 L3N4 3 - MN5 2 L3N4 3 - N4WS 3 L3N4 3 - N4NS 4
L3NS 1 - NSNS 0 L3NS 1 - NSti 2 L3NS 2 - NSNS 2 L3kS 3 - wN5 2 L3NS 3 - NSNS 4 L3NS 4 - NSNS 4 L3N6 1 - %M!i 0 L3N6 1 - N6Ns I
:‘gb” j I J NS 2 115 1
L3N6 2 - 116155 2 L3N6 2 - Mb115 3 Et : - - MWl NbNs 3 2
L3N6 3 - MbNS 4 L3N6 4 - NbNS 3 L3N6 4 - U6NS 4 L3N6 4 - N6NS S L3Nl 2 - NfNS 1 L3N7 2 - N7N5 2
ON1 2 - NlN5 3 L3Nl 3 - NtMS 2 LIN7 3 - NlNS 3 L3N7 3 - LTNS 4 L3N7 4 - NlN5 3 L3Nl 4 - NtNS 4 L3N7 4 - U7NS 5 L3N7 I - WlWf 4 L3Y7 5 - NW5 5 L3Nl 5 - UlNS 6
L3111 I - NlNb 2 Lllll 1 - MN6 3 L3Ml 2 - 111% 2 L3Ul 2 -Ml% 3 L3M2 1 - fi2N6 2 L3)IZ 1 - 112116 3 Llll2 2 -N2%2 L3N2 2 - 12N6 3 L3lt3 a - LuNb 2 L-3 I - M3N6 1 L3113 1 - N3N6 2 L3n3 1 - ma6 3 L3113 2 - R3W 1 13113 2 - w&6 2 L3M3 2 - II3M 3 L3113 2 -mn64 L3N3 3 - n3N6 1
M4;;.;g .
:zx 15632103 14634.69
:“Stg-:: ls641:tlo lS634. ‘15
15627.19 lSC31.91 15632.17 15635.46 15639.33 ls634.00 1562S.60 ls62S.23
:wzi . 1S629.06 lSt30.56 lS62(1.30 15629.60 lS631.61 15631.11 15632.97 lS626.31 lS6.1?.56 15630.66
15623.98 15629.29 lS622.SO
:zI*:; . lS636.91 lS621.45 ls637.62 1%22.35 lS640.22 lbC43.11
ttz% . 16031.90 16044.50 16049.74 16040.35
:x-z 16012:19
22.82 12.22 12.03 13.89
9.ss 11.41 16.06 13.67 16.S2 11.47
4.51 14.63
6.69 12.17 16.05 10.79
2.39 1.94 6.93 a.?9 S.16 7.23 1.02 6.s2 6.38 7.63 9.69
-El 1.36 a.59 6.00
-0.18 13.96 -1.12 13.63 -1.84 14.13 -0.93 16.93
(13.49 91.56 74.13 72.22 64.63
2: .
1::z s2.51
16453.11 16442.31 16442.17 16444.09 16439.sO 16441.50 16446.31 16444.01 16449.68 16441.59 16434.32
:z-Xf yg::;
1644ao:ll 16432.24 16431.79 lb436.96 16430.50
24.36 13.57 13.37
E-E 12:70 17.51 15.27 20.00 12.79
16435.75 16437.31 16434.9s 16436.51
:z% lb439:82 16432.90 16423.63 16437.37
13:z 10.01 13.44 11.44 11.97
3.43 2.99
:*:; . 6.94 0.51 6.1s 1.71
t:: 11.01
4.10 -4.91
8.57 16430.39 1643s.93 16426.% 16444.16 16426.S9 lb443.61 16427.86 16444.16 16429.62 16447.20
l.M 7.13 0.14
11.36 -0.21 11.01 -0.92 lS.%
1::: 16667.10 67.11 16965.10 es.11 16057.40 77.41 16055.40 IS.41 16060.43 aa. 169t2.63 92.96 16872.42 92.43 16976.64 9b.as 16994.99 114.91 16934.30 54.31
L6015.13 ss.4s 16931.31 57.36 16019.12 s9.44 1694l.SS 61.S6 16C44.03 94.3s 16067.10 07.19 16846.96 9'1.30 16970.25 90.26 16050.% 91.20 16074.43 94.44 16044.69 91.01 16667.65 ar.ab 16012.19 5231 168W.30 H-31
17706.92 11694.47 176%.24 lT696.26 17691.41 11693.49 17690.54 11696.24 17701.29 17693.63 ltbS6.72 17697.71 17691.34 17695.00 11699.21 lt693.35 ltb92.24 17601.81 11697.23 11600.49
17665.92 17661.Sl 17605.04 17686.69
:E:*XX 17690:23 17662.94 17673.36 17687.59
nm&.‘o;
nwt::;
W&::,”
17671:6S ltb9S.29
:~x:% . 19144.19 16142.96
:t,'::*:; 1914dt2 19150.41 1#149.% 10154.65 19171.92 19109.44
:::::*:t pa:;;
161so:64 19143.60 18100.44
28.76 16.33 lb.10 19.11 13.33 lS.35 20.40 19.09 23.14 15.48
0.56 19.57 13.20 lb.06 21.a6 lS.21
4.09 3.66
f-i3 . 1.79 9.42 6.90 a.55
10.58 10.05
'foot . -4.16
9.44 2.16 1.61 0.58
16.50 0.21
16.13 -0.50 17.1s
0.52 19.64
92.27 90.14 82.02 19.99 93.80
.96.49
.96.04
i 02.73 20.00 S6.51 19.17 64.2) 9a.96 94.24 :96.72 91.69 56.51
453
F. PARJINTE et al. L X-Ray htellite Energies
TABLE III. L X-Ray Satellite Energies of ,Th, &J, and a+im (in eV) See page 387 for Explanation of Tables
WERICIWI z=95
lRA*SITlON LNERW SHIFT ENEWY SHIFT ENEffiY SHIFT
L3)13 3 - mN6 2 L3lll 3 - 43% 3 L3)13 3 - m3N6 4 L3M 0 - MN6 2 L3M I - %Nb 1 LW4 I - MN6 2 L3114 1 - MN6 3 L3a4 2 - MN6 1 L3114 2 - a1116 2 LuI4 2 - NW6 3 L3lt4 2 - MN6 4 L3M 3 - MN6 1 L3)14 3 - MN6 2 L3W4 3 - MN6 3 L3H4 3 - MN6 4 LSHS I- luN6 1 La45 1 - MN6 2 tz : - MN6 3
-MN60 L3115 2 - WSNb 1
L3M 2 - nsN6 2 L3MS 2 - I(sNb 3 L3115 2 - ksN6 4 L3NS3 - Mm61 L3115 3 - MSU 2 13us 3 - USN6 3
16015.13 16019.l2 16012.65 16056.77 16046.04 16056.25 16050.79 16034.07 16044.29 16036.03 16047.54
:t%*SX 16Of0:32 16059.04 16CS7.13 l6061.29 16G62.91 16C29.26 16029.79
16033.95 16035.56 16C36.95 16045.99 16050.15
55.45 59.44 53.17 97.09 66.36
?:I $::
79:rs eJ*sb 85.89 %.lO 90.64 99.36 97.45
lbl.61 143.23
69.56 70.11 74.27 75.68 77.27 66.31 90.47 92.09 93.47 ea.01 64.40 66 902
67.40 61.94 17.78 14.67 15.64 12=54 13.00
20.45 13.86 21.31
21.06 6.22 3.69
13.04 12.77 15.24 19.59 12.71
6.22 6.69
16137.37 16041.55 1604.97 16WI.16 16068.98 16079.72 16B73.94 16856.78 16a67.53 16861.75 16870.90 16860.69 16879.43 16073.65 16DO2.80 16800.19 16W4.56 16aa6.25 16811.59 16852.12 1bs56.50 166SO.19 16659.65 16868.76 16(173.13 16874.62 16076.28 16670.54 16046.37 16148.06 lb849.52 16843.78 16799.12 16795.89 16196.90 16793.67 167%.21 16801.95 1679S.11 16802.85 y&3&
16t69:54 16794.04 16793.74 16796.32 16800.~1 16793.66
it?& X: -167PI.04 16M6.91 16aO1.07 16164.69 16600.67 16790.24 16782.10 167%.21 16787.65 16104.61 16784.67 16IOO.IS 16790.22 16807.17 16791.85 16t97.01 16t98.58 16706.32 16785.86 16791.04 16792.60 167%.53 16799.30
::;p 2 16797:9$ 16791.04 16tM.96 16790.54 16192.47 [email protected] 16105.47 16713.23 16784.26 l6788.SL 16703.46 16787.78
57.31 61.56 54.98
100.17 w.99 99.73 93.95 76.79 87.54 81.76 90.99 88.10 99.44 93.66
102.89 100.20 104.57 106.26 71.60 72.13
:8”:::*“;: 1a109:13 18156.B2 18144.78 18156.32
:::%:I 18143:56 18137.30
ft:t:*$ 18lsb:Ot 18149.77 18159.76 18155.99 lfi160.69 18162.49 18126.19 18126.74
$9.77 64.25 $7.21
104.90 92.86
104.40 98.14 SO.00 91.63 85.38 95.37 92.Sb
104.10 97.04
107.84 104.07 101.77 llO.S7
74.26 74.82
76.51 18131.44 79.52 78.20 18133.24 81.32 79.66 18134.81 82.89 80.n 18144.12 92.20 93.14 18148.82 96.90 94.63 18150.62 98.70 96.29 1a152.19 100.26 90.55 18146.03 94.11 66.38 18120.86 68.94 68.07 18122.bb 7o.n
L3WS 3 - NSN6 4 L3MS 3 - 15% 5 Lilt5 i - MSNb i L3WS 4 - mm6 3
L3115 4 - MN6 4 L3115 4 - MS& 5 L3Nl 1 - MN6 2 L3Nl i - Nltii 3 L3NL 2 - NlNb 2 L3Nl 2 - NlN6 3 L3N2 1 -N2N62 L3N2 1 - U2N6 3 L3N2 2 - N2Nb 2 L3N2 2 - h24 3 L3N3 0 - h3N6 2 L3w3 I- N3Nb 1 L3N3 1 - k;3N6 2 LN3 l- w3i6 4 L3N3 2 - N3W 1 L3N3 2 - NJ% 2 L3N3 2 - N3N6 3 L3113 2 - N3N6 4 L3N3 3 - WNb 1 L3N3 3 - N3N6 2
L3N3 3 - N3W 3 L3N3 3 - N3W 4 L3N4 a - WIN6 2 L3N4 l- wN61 L3N4 1 - N4N6 2 L3N4 l- MNb 3 UN4 2 - N4% 1 L3N4 2 - N4N6 2 L3N4 2 - N4Nb 3 L3N4 2 - NW6 4 L3N4 3 - NW6 1 L3N4 3 - wwa 2 L3N4 3 - N4Nb 3 Lu14 3 - MN6 4 LSNS l- NsNb 1 LlNS 1 - NSNb 2 L3NS 1 - NW6 3 L3NS 2 - NSN6 0 L3NS 2 - WIN6 1 L3NS 2 - N5% 2
L3NS 2 - N5N6 3 LUIS 2 - Nsw6 4 L3NS 3 - Ml6 I
zz f -NW62
t23 ,’ ~~~: - NSM I
LSNS 4 - NSN6 2 L3NS 4 - USN6 3 UN5 4 - wu 4 L3NS 4 - NSNI 5 L3N6 1 -N6N62
s:t f -NbN60 - 66% 2
L3N6 2 - N6Nb 4 ~3M6 3 - ~6~6 2 L3N6 3 - NbN6 4
16027.06
15975.32
:;:;f*g 159eo313 15973.54 lSQ(10.99
15960.74 15965.90 159611.37 15972.72 15972.45 15914.92 15979.27 15972.39
15972.72 15965.83 15979.41 15963.60 15979.22 15568.92 15961.12 15976.74 15966.43 15962.80 15963.58 15979.20 lil%~.90 15965.34 15970.56 15975.55 15977.05 15965.27 15964.62 15969.61 L5971.31 15973.17 15966.10 15973.09 15974.59 15976.45
:3,“,t*z 15969:33 15971.20
15964.53 15966.10 15%4.95 15%4.95 15564.95 15964.19 15964.19
2=90
13.04 6.16
19.73 3.92
‘t-l: 1:44
17.06 6.75
23.20 3.90
19.52 9.22
25.66 10.88 15.1)7 17.37
5.59 5.14
10.13
11.63 13.49
6.42 13.41 14.91 16.77 10.11
a.15 9.65
11.52
4.m 6.42 5.27 5.27 5.27
f-z .
URANIUM z-92
69.53 63.79
:59-k-i la:91 13.u 14.22 21.96 15.12 22.86
'f % 9:ss
14.05 13.75 16.33 2o.a 13.69
::E 14.05 6.92
21.Oa 4.74
20.88 10.25 2.11
la.29 7.66
24.62
2,':: 10.23
::-$' 17102 18.59
k", 11.05 12.61
‘Et 14:47 16.03 17.% 11.05
l&Z 12.43 5.57
. -2.Z
4.27 8.59 3.47 7.79
18124.22 10118.07 18077*94 18074.52 16075.57 18072.15 18070.14 16071.33 16071.11 18079*31 1807~.55 18062.24 18064.97 16069.69 18069.41 16072.15 19076.66 18069.37 p&.g;
. 18069.69 &x&f;
. 18058.63 10075.64 18064.53 111055.86 16072.88 18061.76 18079.47 18058.61
:2x:-;: 18082:22 18066.91 la72.34 18073.99 18060.97 18060.54 18065.97 10067.62 10069.65 18064.20 16069.62 10071.27 18073.31 18066.01 18063.77 ywb;.~f
. 18060. lb lMS7.87 lm44.01 18OS6.56 18061.15 18055.68 18060.21
72.30 66.15 26.01 22.60 23.64 20.23 18.22 26.41 19.19 27.38 26.63 10.32 13.05 17.76 17.49 20.22 24.94 17.45 10.32 13.05 17.76 10.28 23.95
6.70 23.72 12.61 3.94
20.95 9.64
27.55 6.6E
23.70 12.59 30.30 14.99 20.42 22.07
9.05 8.62
14.05 15.70 17.73 12.27 17.70 19.35 21.38
::* P r3:ro 15.53
X'S -:I::
9:23 3.76 a.35
F. PARENTFI et al. L X-Ray Satellite Energies
TABLE III. L X-Ray Satellite Energies of BoTh, &, and ,&m (in eV) See page 387 for Explanation of Tables
TRAhSITION ENEMY SHIFT
L3N6 4 -MN62 L3N6 4 - NW 4 UN7 2 - N7N6 1 L3N7 2 - NlN6 2
lS965*50 15%5.50 15998.69 15961.53 15966.45
:2E:: . 15960.15 15565.01 15%5.37 15967.18 15959.82 14964.73 1596S.06 15966.85 lS959.04 1596S.W
:Ez-z 15959194
16050.60 16041.24 16043.70 16456.33 16060.17 16OS9.08 16074.80 16019.03 16027.13 16050.87
5.82 S.82
-0.99 1.85 6.77 7.01
-2.37 0.47 5.39 S.69
7.50 0.14 5.0s
“1.:; . -0.64
5.% 6.26 8.01 0.26
L3N7 2 - N7N6 3 C3Nl 2 - NlNb 4 L3N7 3 - N7ib 1 L3Nl 3 - I7W 2 L3N7 3 - m7N6 3 L3N7 3 - N7Nb 4 ‘,ff: f - - m7N6 WIN6 2 5
i::: t - - N7N6 N7N6 4 3
L3Nl 4 - WIN6 5 L3N7 4 - N7N6 6 L3N7 5 - N7W 3 L3N7 5 - Y7Nb 4 L3N7 5 - N7M6 5 iiN 5 - N7N6 4
L3Rl 1 - MN7 3 L3Ml 2 - MN7 3 L3Wl 2 - WIN7 4 Lul2 1 - M2N7 3 L31)2 2 - MN7 3 L3W2 2 L3113 0 ‘: ‘um2; ;
L3113 1 - 113N7 2 L313 1 - 113N7 3 L3M3 2 - U3N7 2
L3M3 2 - )13N7 3 L3W3 2 - MN7 4 L3M3 3 - M3N7 2 L3M3 3 - H3N7 3 iin 3 - U3N7 4 L3U3 3 - MN7 5 rim 0 - tiN7 2 L3P4 1 - WN7 2 L3R4 1 - I(4Nl 3 L3n6 2 - MN? 2
L3Il4 2 - MN7 3 L3M4 2 - MN7 4 LJnr 3 - MN7 2 L3114 3 - MN7 3 L3n4 3 - )I4N7 4 L3M4 3 - MN? 5 L3H5 1 - fiSN7 1 L315 I - ll5N7 2
L3US 2 - n5lt7 2 L3WS 2 - 83n7 3 L3HS 2 - MN7 4 L3It5 3 - a5117 1 L3m 3 - MN7 2 L3115 3 - N5Nt 3
;:I: 3 - - MN7 MN7 4 5 L3M 4 - MN7 2 L3W5 4 - MN7 3 L31(5 4 - li5N7 4 L3)15 4 - M5N7 5 L3M5 4 - NSN7 6 L3Nl 1 - h1N7 3 L3Nl 2 - 111117 3
- NlN7 4 - N2N7 3
L3N2 2 - N2Nt 3 L3N2 2 - N2N7 4 L3N3 0 - N3N7 2
L3N3 1 - WN7 2 L3N3 1 - N3Nt 3 L3N3 2 - lull7 2 L3N3 2 - N3Nl 3 LW3 2 - N3N7 4 L3N3 3 - N3N7 2 L3N3 3 - N3N7 3 L3N3 3 - N3N7 4 L3N3 3 - N3N7 5 L3N4 0 - YIN7 2
L3N4 1 - N4N7 2 L3N4 L3N4
1, 2
y; f
L3N4 2 - WN7 3 L3N4 2 - N4N7 4 L3N4 3 - NbN7 2 L3N4 3 - b4N7 3
7WRIUM 2190 UQANlUN Z-92 ANERICIW t-95
EMma
167%. 84
:tz- it 16782: 53 16787.67
f%K 16781:09 16786.22 167%. 54
16788.43 16780.74 1678S.87 167%. 19 16788.08 16779.92 167%.82 16787.13 16789.03 16780.87
SHIFT ENERCV SHIFT
4.85 9.17
-0.42 2.54 7.66
-::z 1.10 6.23 6.55
18051.18 5.26 18%1.78 9.% 18051.s* -0.38 18054.70 2.78 18060. lb 8.24 18060.49 8.Sl 18019.97 -1.95 18053.13 1.20 18058.58 6.66 18058.92 6.99
8.44 18060.93 0.7S 18052.75 5.88 18058.21 6=20 18058.54 8.09 18060.56
-0.07 18051.88 6.83 18059.23 7.14 18059.16 9.04 18061.57 0.88 18052.90
9.01 0.83 6.29 6.62
-::c 7.31 7.64 9.65 0.97
81.66 16876.76 85.34 72.30 16867. % 75.b4 74.76 16669.64 78.21 87.39 16882.82 91.39 91.23 168%.81 95.39 90.13 16885.61 94.25
105.85 16900.84 109.42 50.08 16843.30 51.88 S8.18 168S1.82 60.39 81.92 16876.19 84.76
18156.98 18146.74 18149.47 18163.54 18167.78 18166.57
::'l:x; 18129:58 18154.94
9o.so 80.26 82.99 97.06
:t3 114:22
s3.99 63.10 88.46
16658.97 :“,m;.‘$
ML;
16C27:48 16060.2s 16C59.73 16063.32 lbC47.77
16051.36
:t:31-2 16062:85 16065.23 16C60.03 16662.61 16C71.19 16C67.88 16035.21,
16t43.84 16040.54 16c50.11 16051.47 16C60.05 1605t.74 16066.38 16056.49 16033.98 16030.67 16040.31 16030.42 16C40.61 15982.83 15980.70 lSfE6.84 15985.88 15986.74 15964.58 15983.19 15970.82 15980.40 15977.31 15986.96 i5984.ei lS970.82 15980.40 lS978.26 15981.51 15979.89
:5:x . 15971.22 15981.05 15984.45 15979.68 15983.51
90.03 88.80 50.08 58.18 S6.96 58.53 91.31 90.78 94.37 78.82
82.41 84.19 90.32 93.91 96.28 91.06 93.66
102.24
z- fz’ .
74.90 71.59 81.23 82.52 91.10 67.80 97.43 87.54 65.03 61.73
71.36 61.47 71.66 13.89 11.75 15.89
:;*t:
::k .
1.8, 11.46
8.42 18.01 15.87
1.87 11.46
9.32 12.56 10.94
10.76 14.58
6.28 12.10 15.50 LO.74 14.56
16884.70 16883.39 16843.30 16851.82 168SO.51 16852.21 16885.80 lb885.36 168899.12 16873.17 16876.92 16879.41 16885.07 16888.83 16891.32 16885.86 16887.90 168%.95 16893.43 168S9.84
:t::3-:t 18120:47 18129.58 18128.15 1813O.OS
::::zt M&P&
.
:::E:t 16164:49 18168.49 18171.15 18165.32 16166.65 18176.39 18172.56 18137.40
16868.88 16865.37 1687S.53 16876.47 16805.52 16882.00 16892.17 16881.72 16858.75 16855.24
MM”.;;
16865: 76 lb806.64 16804.41 16868.72 16899.% 16810.76 16808.St 16806.85
93.28 91.97 51.88 60.39 59.08 60.79 94.38 93.96 or.70 81.75
85.50 87.99 93.65 97.41 99.90 94.44 96.46
105.52
‘:3-s .
77.46 73.94 84.11 05.0s 94.09 90.58
100.7s 90.29 67.33 63.81
73.98 63.53 74.34 15.22 12.99 17.29 18.44 19.34 17.10 15.43
18141.14 18143.30 18154.27 181S4.76 18164.51 18160.66 18171.65 16160.36 18136.55 18132.72
167%.04 16803.% 16800.81 168 10.73 16809.54 16794.04 16803.W 16801.76 16805.01 16803.54
16803.33 16807.31 16800.75 16806.73 16808.25 16803.32 16807.29
2.62 12.54
9.39 19.31 17.11
2.62 12.u 10.34 13.65 12.12 11.91 15.89
18143.69 18132.40 18144.13 18088.43 18086.06 18090.61 18089.24 18090.22 18087.84 18085.89
18072.31 18082.72 18019.48
:ttx 18072:31 18082.72
:t:t:-2 . 18081.08 18080.85 18085.05 18078.08 18082.28 18086.00 18080.83 18085.03
97.57 96.14 53.99 63.10 61.67 63.57 98.80 98.31
102.30 85.U
89.54 92.20 98.01
102.00 104.67
98.64 100.17 109.91
%% .
80.66 76.82 87.79 88.30 98.03 94.20
105.17 93.88 70.07 66.24
77.21 65.91 77.65 21.95 19.58 24.13 22.76 23.74 21.36 19.41
5.83 16.24 13.00
23.42 21.14
5.83 16.24 13.97 17.37 14.60
14.37 18.57 11.60 15.80 19.52 14.35 18.55
455
F. PARENTE et al. L X-Ray !Satellite Energies
TABLE III. L X-Ray Satellite Energies of mTh, ,JJ, and &im (in eV) See page 387 for Explanation of Tables
IlAbSlTlON ENEBCY SHIFT ENERGY WI FT ENERGY SHIFT
L3N4 3 - N4N7 4 L3W4 3 - WIT 5 L3NS 1 - MN7 1 L3NS 1 - N3W7 2 L3NS 1 - NM7 3 L3NS 2 - NsN7 1 L3N3 2 - mm7 2 L3MS 2 - kSN7 3 L3NS 2 - NM7 4 L3NI 3 - LSN7 I
L3NS 3 - NIN7 2 L3NS 3 - N3N7 3
: JHt’ f
15SL6.91 13919.30 15972.95 lSla6.C3 MS9’1.g
1s900:29 15973.51 lS9M.26 lS970.50
17.96 10.35 4.01
11.09 10.30 -1.73
%X 19:31
l.SS
16310.32 16303.44 167%.21 16009.32 16002.34 16790.31 16003.35 167%.% 168 X2.00 167%. 73
10.40 12.01
ii:;
;::ig .
2::s 2.31
lBOB0.75 22.27 18000.96 14.49 18074.17 7.49 16003*40 21.91 18091.11 14.63 16067*30 1.32 13082.03 IS.54 13074*74 B.26 13090.66 24.18 19071=45 4.97
15963.S3 14.63 16eO7.27 15976.79 7.0s 16WO.20 15991.54 22.n 16825.50 15976.07 7.13 16790.57 15976.32 9.37 16301.79 15971.53 2.59 16794.eO 15916.26 17.34 16BlO.03 15970.82 1.07 16796.09 lS%b60 14.74 16312.46 15963.73 -0.22 16791.96
lS.35
2s 8.15
10.37
,',:,M, 2.67
21.04 0.54
13035.63 13073.40 13094.31 13071.69 13079.33 19072.54 13033.46 18071.34 13090.96 18067.25
19.20 11.92
::*:: 13:35
6.06 21.91)
5.36 24.47
0.77
L3NS 4 - MW7 2 L3NS 4 - USN7 3 L3NS 4 - USN? i ttg : - - N5N7 Nm7 6 5
L3N6 1 - h6N7 1
L3N6 I - MN7 2 L3N6 A- N6N7 3 13N6 2 - 111117 1 L3W 2 - NW7 2 :3z f - h6N7 3
L3Nb 3 2%:
:%a 5 -)u1172 - MN7 3 L3N6 3 - WN7 4
LN6 3 - WN7 5 L3N6 * - WN7 2 13Nt 4 - mN7 3 L3N6 4 - Null 4 L3N6 4 - WNT 5 L-6 4 - N6N7 6 L3N7 2 - N7N7 0 LUl7 2 - N7N7 2 tc f - - nlN7 Nlnl 2 4
L317 3 L3h7 4 z pm; ;
L3N7 4 - N7N7 4 L3N7 4 - N7N7 6 13Nl 5 L3N7 S
TMnluN z-90 lRANIUN l-92 U(ERICIUN Z-95
15971.57 15976.46 15967.58 15970.42 15975.33 15975.63 15966.32 lS969.6S 15974.57 15974.37
f l f f
-1:37 1.47 6.39 6.69
-2.13 0.71 5.63 5.93
167%.92 16300.06 16790.75 16793.71 16798.~5 16799.16 16709.95 16792.92 1679COS 167%* 36
3.30
-Z 2.29 7.43 7.74
-1.47 1.49 6.63 6.94
13070.41 16075.86 :;W6;.;;
. 13074.55 1~074.88 18065.06 16060.22
::;:-t: .
3.92 9.30
-0.55 2.61 0.07 8.40
-1.42 1.74 7.19 7.53
7.74 16300.26 2.02 16794.29 6.93 16799.43 7.24 16799.74 9.01 16D01.63 1.24 16793.43
-7.07 16733.93 1.38 16793.60 L&7 16799.34 0.00 16792.16
2”:: 0.01 0.32
10.21 2.05
‘X .
21
:zFSf 16075:13 1007s.51 13077.52 13063.34 13058s65 13068.94 13075.04 13067.36
9.54 3.24 0.70 9.03
ll=O4 2.36
-7.04 2.46 0.56 0.00
L3914.66 5.49 16797.09 6.41 1596i.61 -0.33 16791.31 0.3? 15974.10 5.16 16797.H 6.12 lS914.93 6.04 16796.47 7.04 15975,Ol 6.G6 16796.49 7.01 lS975.39 6.91 16799.41 7.99
13073.46 18066.99 13073.09 13074.07 16074.11 18075.09
6.98 0.91 6.61 7.59 1.63 3.61
456 Atomic Data and Nuclrr Data Tablea. Vol. 26. No. 5. ~emter 1881
F. PARENTE et al. z# X-Ray satellite Energies 457
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
Y KL2 u3 Knl Km2 2 's1/22sl/2 '?/22h/2 's1/22p3/2 1*1/23s1/2 'sl/23p1/2
J-O J-l J-O J=l J=l J=2 J=O J=l J=O J=l
65 80.716 -26.905 13.418 -4.473 24.641 -14.785 15.822 -5.274 2.541 -0.847
67 85.719 -28.573 15.542 -5.314 25.719 -15.431 16.950 -5.650 3.046 -1.015
70 93.756 -31.252 20.216 -6.739 27.385 -16.431 18.761 -6.254 3.908 -1.303
74 105.559 -35.186 26.920 -a.973 29.695 -17.817 21.411 -7.137 5.277 -1.757
78 118.803 -39.601 34.943 -11.648 32.119 -19.272 24.383 -8.128 6.916 -2.305
80 126.037 -42.012 39.514 -13.171 33.377 -20.026 26.006 -8.669 7.868 -2.619
85 146.192 -48.731 52.824 -17.608 36.662 -21.997 30.528 -10.176 10.612 -3.537
aa 159.901 -53.300 62.284 -20.761 38.735 -23.241 33.601 -11.200 12.575 -4.192
90 169.821 -56.607 69.299 -23.100 40.159 -24.096 35.824 -11.941 14.031 -4.677
92 180.438 -60.146 76.943 -25.648 41.622 -24.973 38.201 -12.734 15.618 -5.206
95 197.805 -65.935 89.713 -29.904 43.881 -26.328 42.083 -14.028 la.268 -6.089
KM3 *A4 KM5 ml KN2
2 'sl/23p3/2 's1/23d3/2 's1/23d5/2 'sl/24s1/2 %24Pl/2 J-1 552 J=l J=2 J-2 J-3 J=O J=l J-O J=l
65 5.018 -3.001 0.933 -0.560 0.642 -0.458 3.734 -1.245 0.564 -0.188
67 5.314 -3.188 1.048 -0.629 0.708 -0.505 4.021 -1.340 0.681 -0.227
70 5.774 -3.464 1.237 -0.742 0.814 -0.581 4.480 -1.493 0.881 -0.294
74 6.416 -3.850 1.518 -0.911 0.967 -0.691 5.211 -1.737 1.217 -0.406
78 7.101 -4.260 1.838 -1.103 1.135 -0.811 6.059 -2.020 1.637 -0.546
a0 7.460 -4.476 2.012 -1.207 1.225 -0.875 6.531 -2.177 1.883 -0.628
a5 a.412 -5.047 2.492 -1.495 1.466 -1.047 7.866 -2.622 2.620 -0.573
88 9.022 -5.413 2.810 -1.686 1.621 -1.158 a.786 -2.929 3.156 -1.052
90 9.445 -5.667 3.036 -1.821 1.729 -1.235 9.455 -3.152 3.559 -1.186
92 9.882 -5.929 3.272 -1.963 1.841 -1.315 10.168 -3.389 4.000 -1.333
95 10.565 -6.339 3.646 -2.188 2.015 -1.439 11.337 -3.779 4.740 -1.580
KN3 KN4 A5 w6 KN7 2 1s,/24p3/2 'Sl/24d3/2 'S1/24d5/2 's1/24f5/2 's1/24f7/2
J=l J=2 J-l J=2 5x2 J--3 J=2 J--3 J-3 J=4
65 1.118 -0.671 0.175 -0.105 0.124 -0.089 0.031 -0.022 0.022 -0.017
67 1.190 -0.714 0.199 -0.119 0.138 -0.098 0.036 -0.026 0.025 -0.019
70 1.301 -0.781 0.238 -0.143 0.160 -0.114 0.045 -0.032 0.031 -0.024
74 1.483. -0.890 0.305 -0.183 0.198 -0.141 0.066 -0.047 0.046 -0.035
78 1.689 -1.013 0.386 -0.232 0.242 -0.173 0.091 -0.065 0.063 -0.049
a0 1.800 -1.080 0.432 -0.259 0.267 -0.191 0.105 -0.075 0.072 -0.056
a5 2.103 -1.262 0.564 -0.338 0.336 -0.240 0.145 -0.104 0.099 -0.077
88 2.303 -1.382 0.654 -0.393 0.382 -0.273 0.172 -0.123 0.117 -0.091
90 2.443 -1.466 0.720 -0.432 0.415 -0.296 0.191 -0.137 0.130 -0.101
92 2.588 -1.553 0.789 -0.473 0.448 -0.320 0.211 -0.151 0.144 -0.112
95 2.816 -1.689 0.900 -0.540 0.502 -0.358 0.243 -0.174 0.165 -0.128
P. PARENTJX et al. L X-Ray 8iwite Baeqiea
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
v2 v3 Vl v2 Ll"3
2 2sl/22p1/2 2s1/22p3/2 2sl/23sl!2 2S1/23?/2 2sl/23p3/2
J=O J=l J=l J=2 J-O J=l J=O J=l J=l J=2
65 -24.061 8.020 45.801 -27.481 17.456 -5.819 -1.065 0,355 2.733 -1.640
67 -24.740 8.247 47.595 -28.557 18.382 -6.127 -1.052 0.351 2.853 -1.712
70 -25.733 8.578 50.356 -30.214 19.830 -6.610 -1.017 0.339 3.036 -1.822
74 -26.999 9.000 54.175 -32.505 21.877 -7.292 -0.935 0.312 3.292 -1.975
78 -28.186 9.395 58.172 -34.903 24.091 -8.030 -0.806 0.269 3.566 -2.140
80 -28.743 9.581 60.244 -36.147 25.269 -8.423 -0.721 0.240 3.713 -2.228
85 -30.010 10.004 65.661 -39.396 28.460 -9.487 -0.441 0.147 4.118 -2.471
88 -30.665 10.222 69.087 -41.452 30.567 -10.189 -0.217 0.072 4.394 -2.636
90 -31.048 10.349 71.452 -42.871 32.064 -10.688 -0.041 0.014 4.594 -2.756
92 -31.381 10.460 73.888 -44.333 33.644 -11.215 0.161 -0.054 4.810 -2.886
95 -31.774 10.591 77.679 -46.607 36.185 -12.062 0.516 -0.172 5.168 -3.101
GM4 v5 Vl v2 v3 2 2sl/23d3/2 2Sl/23d5/2 2sl/24sl/2
J=l J=2 5~2 2?/24?/2 2sl/24p3/2
J=3 J=O J=l J-O J-l J=l J=2
65 -2.862 1.717 5.192 -3.708 3.539 -1.180 -0.195 0.065 0.635 -0.321
67 -2.930 1.758 5.434 -3.881 3.744 -1.248 -0.191 0.064 0.560 -0.336
70 -3.013 1.808 5.794 -4.139 4.064 -1.355 -0.180 0.060 0.597 -0.358
74 -3.080 1.848 6.260 -4.472 4.567 -1.522 -0.160 0.053 0.659 -0.395
78 -3.097 1.858 6.716 -4.797 5.135 -1.712 -0.127 0.042 0.729 -0.437
80 -3.085 1.851 6.940 -4.957 5.443 -1.814 -0.106 0.035 0.767 -0.460
85 -2.989 1.793 7.491 -5.350 6.294 -2.098 -0.032 0.011 0.873 -0.524
88 -2.882 1.729 7.813 -5.581 6.865 -2.288 -0.029 0.010 0.944 -0.567
90 -2.786 1.673 8.023 -5.731 7.273 -2.424 0.078 -0.026 0.996 -0.598
92 -2.675 1.605 8.232 -5.880 7.702 -2.567 0.134 -0.045 1.052 -0.631
95 -2.465 1.479 8.537 -6.098 8.394 -2.798 0.234 -0.078 1.143 -0.686
v4 L1N5 LlN6 v7 L2L3
z 2sl/24dJ3/g J-1 =
2sl/24%/2 512 J=3
2Sl/24f5f2 J=2 J=3
2sl/24f7/2 J=3 5x4
2$22p3<2 J=l
65 -0.477 0.286 0.074 -0.624 0.017 -0.012 0.043 -0.033 -11.077 6.646
67 -0.492 0.295 0.922 -0.659 0.021 -0.015 0.048 -0.038 -11.214 6.728
70 -0.511 0.307 0.993 -0.709 0.027 -0.020 0.058 -0.045 -11.374 6.824
74 -0.545 0.327 1.122 -0.801 0.044 -0.031 0.083 -0.065 -11.496 6.898
78 -0.574 0.344 1.262 -0.902 0.064 -0.046 0.112 -0.087 -11.509 6.905
80 -0.585 0.351 1.336 -0.954 0.077 -0.055 0.127 -0.099 -11.471 6.882
85 -0.601 0.361 1.527 -1.091 0.114 -0.062 0.169 -0.131 -11.238 6.743
88 -0.600 0.360 1.646 -1.176 0.141 -0.101 0.196 -0.152 -10.997 6.598
90 -0.594 0.357 1.727 -1.234 0.162 -0.116 0.215 -0.167 -10.792 6.475
92 -0.583 0.350 1.809 -1.291 0.184 -0.131 0.234 -0.182 -10.550 6.330
95 -0.557 0.334 1.930 -1.378 0.221 -0.157 0.265 -0.206 -10.114 6.069
F. PARENTE et al. L X-Ray Satellite Energies 459
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
LZ"l L2M2 L2"3 L2"4 L2"5
2 2p1/23*;g 2?/23?/2 2p1/23p3/2 2P1/23d3/2 2P1/23d5/2
J=O J=O J=l J=l J=2 J=l J=2 J=2 J=3
65 -1.740 0.583 23.368 -7.789 -0.786 0.472 9.554 -5.732 -1.137 0.812
67 -1.789 0.596 24.703 -a.234 -0.775 0.465 9.923 -5.954 -1.161 0.829
70 -1.844 0.615 26.806 -a.935 -0.749 0.450 10.452 -6.271 -1.190 0.850
74 -1.899 0.633 29.805 -9.935 -0.695 0.417 11.092 -6.655 -1.212 0.866
78 -1.931 0.644 33.084 -11.028 -0.615 0.369 11.666 -7.000 -1.218 0.870
80 -1.937 0.646 34.845 -11.615 -0.566 0.339 11.927 -7.156 -1.213 0.867
a5 -1.917 0.639 39.668 -13.223 -0.412 0.247 12.500 -7.500 -1.183 0.845
aa -1.877 0.626 42.898 -14.299 -0.297 0.178 12.784 -7.671 -1.150 0.822
90 -1.835 0.612 45.215 -15.072 -0.211 0.127 12.946 -7.768 -1.123 0.802
92 -1.781 0.594 47.682 -15.894 -0.116 0.070 13.086 -7.852 -1.090 0.778
95 -1.671 0.557 51.691 -17.230 0.041 -0.025 13.250 -7.950 -1.031 0.736
L2Nl L2N2 L2N3 L2N4 L2N5 2 2p1/24s1/2 2P1/24Pl/, 2p1/24p3/2 2Pl/24d3/2 2Pl/24d5/2
J=O J-l J-O J=l J-l J-2 J=l 512 J-2 J=3
65 -0.357 0.119 4.511 -1.504 -0.148 0.089 1.662 -0.997 -0.197 0.141
67 -0.366 0.122 4.796 -1.599 -0.145 0.087 1.742 -0.045 -0.203 0.145
70 -0.377 0.126 5.245 -1.748 -0.138 0.083 1.857 -1.114 -0.209 0.150
74 -0.392 0.131 5.965 -1.988 -0.126 0.076 2.060 -1.236 -0.222 0.159
78 -0.401 0.134 6.788 -2.263 -0.108 0.065 2.271 -1.363 -0.233 0.167
a0 -0.404 0.135 7.239 -2.413 -0.096 0.058 2.377 -1.426 -0.238 0.170
a5 -0.400 0.133 a.497 -2.832 -0.057 0.034 2.637 -1.582 -0.244 0.174
aa -0.389 0.130 9.351 -3.117 -0.026 0.016 2.786 -1.671 -0.244 0.174
90 -0.378 0.126 9.968 -3.323 -0.003 0.002 2.881 -1.728 -0.243 0.173
92 -0.363 0.121 10.621 -3.540 0.024 -0.014 2.970 -1.782 -0.240 0.171
95 -0.332 0.111 11.685 -3.895 0.069 -0.041 3.093 -1.856 -0.233 0.166
L2N6 L2N7 L3L3 L3"1 L3"2 2 2Pl/24f5/2 2P1/24f7/2 2p3/22p3/2 2p3/23sl/2 2p3/23pl/2
J--2 J=3 J=3 J=4 J=O J=2 J=l J=2 J-l J=2
65 0.034 -0.024 0.002 -0.001 43.322 -8.664 3.745 -2.247 -0.766 0.460
67 0.038 -0.027 0.002 -0.002 45.123 -9.025 3.921 -2.353 -0.754 0.452
70 0.044 -0.031 0.003 -0.003 47.894 -9.579 4.194 -2.516 -0.724 0.435
74 0.061 -0.044 0.006 -0.005 51.715 -10.343 4.569 -2.741 -0.665 0.399
78 0.079 -0.057 0.010 -0.007 55.697 -11.139 4.963 -2.978 -0.579 0.348
a0 0.089 -0.063 0.012 -0.009 57.752 -11.550 5.168 -3.101 -0.527 0.316
a5 0.112 -0.060 0.019 -0.015 63.085 -12.617 5.708 -3.425 -0.363 0.218
aa 0.127 -0.091 0.024 -0.019 66.428 -13.286 6.054 -3.632 -0.241 0.144
90 0.137 -0.098 0.028 -0.022 68.718 -13.744 6.295 -3.777 -0.149 0.089
92 0.146 -0.104 0.032 -0.025 71.063 -14.213 6.544 -3.927 -0.048 0.029
95 0.160 -0.114 0.039 -0.030 X4.680 -14.936 6.937 -4.162 0.121 -0.073
460 F. PARENTE et al. L X-Ray satellite Energies
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
L3n3 L3"4 2 2p3/23p3/2 2P3/23d3/2
J=O J=l 5x2 5~3 J=O J=l J=2 J=3
66 28.577 -8.456 11.678 -8.800 4.859 2.770 -4.633 1.428
67 29.971 -8.838 12.219 -9.222 5.247 2.931 -4.832 1.446
70 32.108 -9.419 13.044 -9.867 5.875 3.181 -5.127 1.460
74 35.031 -10.203 14.163 -10.748 6.794 3.527 -5.511 1.454
78 38.067 -11.006 15.316 -11.661 7.820 3.892 -5.887 1.420
80 39.632 -11.416 15.906 -12.131 8.376 4.083 -6.074 1.392
86 43.695 -12.465 17.428 -13.348 9.902 4.584 -6.533 1.287
88 46.242 -13.113 18.374 -14.110 10.916 4.904 -6.804 1.199
90 47.988 -13.554 19.020 -14.632 11.636 5.125 -6.983 1.129
92 49.775 -14.001 19.677 -15.165 12.395 5.364 -7.160 1.049
95 52.531 -14.685 20.687 -15.987 13.604 5.711 -7.424 0.912
L3"5 L3Nl L3N2 2 2P3/23d5/2 2p3/24sl/2 2p3/24pl/2
J=l J=2 J=3 5~4 J=l J=2 J=l J=2
65 15.364 -2.473 6.784 -9.026 0.788 -0.473 -0.145 0.087
67 16.144 -2.568 7.103 -9.480 0.828 -0.497 -0.142 0.085
70 17.325 -2.705 7.571 -10.161 0.890 -0.534 -0.134 0.080
74 18.903 -2.873 8.166 -11.058 0.986 -0.592 -0.121 0.072
78 20.508 -3.029 a.747 -11.956 1.091 -0.655 -0.100 0.060
80 21.322 -3.102 9.031 -12.408 1.147 -0.688 -0.087 0.052
85 23.3% -3.271 9.723 -13.545 1.2% -0.778 -0.045 0.027
88 24.674 -3.361 10.126 -14.233 1.393 -0.836 -0.013 0.008
90 25.536 -3.416 10.3% -14.695 1.460 -0.876 0.012 -0.007
92 26.413 -3.470 10.651 -15.161 1.528 -0.917 0.040 -0.024
95 27.747 -3.543 11.035 -15.864 1.636 -0.982 0.089 -0.053
L3N3 L3N4
2 2p3/24p3/2 2p3/2'd3/2
J=O J=l 512 J=3 J=O J=l J=2 J=3
65 5.660 -1.552 2.085 -1.633 0.861 0.469 -0.800 0.248
67 5.959 -1.626 2.187 -1.716 0.939 0.500 -0.842 0.253
70 6.413 -1.737 2.339 -1.843 1.065 0.548 -0.902 0.257
74 7.153 -1.919 2.592 -2.051 1.281 0.633 -1.008 0.266
78 7.979 -2.118 2.870 -2.282 1.536 0.727 -1.122 0.270
80 8.407 -2.223 3.018 -2.404 1.677 0.778 -1.180 0.270
86 9.567 -2.499 3.408 -2.73O 2.074 0.916 -1.329 0.260
88 10.312 -2.673 3.656 -2.939 2.344 1.006 -1.420 0.248
90 10.828 -2.793 3.828 -3.084 2.538 1.069 -1.481 0.237
92 11.355 -2.913 4.002 -3.232 2.742 1.134 -1.541 0.223
95 12.172 -3.099 4.270 -3.461 3.070 1.236 -1.630 0.196
F. PARJmTE et rd. L X-Ray satellite Enelgies 461
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
L3H5 L3N6
2 2P3j24d5/2 2Q3/24f5/2
J=l J=2 J-3 514 J=l 552 J-3 J=4
65 2.635 -0.423 1.119 -1.514 0.362 -0.006 -0.258 0.077
67 2.766 -0.442 1.177 -1.599 0.422 -0.004 -0.281 0.080
JO 3.017 -0.469 1.260 -1.725 0.484 0.000 -0.316 0.085
74 3.428 -0.519 1.414 -1.954 0.657 0.009 -0.418 0.101
78 3.863 -0.571 1.582 -2.207 0.837 0.022 -0.517 0.111
80 4.123 -0.597 1.666 -2.340 0.931 0.030 -0.567 0.114
a5 4.758 -0.662 i .a91 -2.690 1.180 0.056 -0.691 0.113
aa 5.161 -0. JO1 2.028 -2.909 1.340 0.076 -0.765 0.106
90 5.430 -0.725 2.121 -3.059 1.451 0.091 -0.814 0.099
92 5.717 -0.749 2.212 -3.210 1.564 0.107 -0.863 0.090
95 6.147 -0.783 2.349 -3.441 1.740 0.134 -0.935 0.072
LJN7 v2 v3 v4 2 2Q3/24f7/2 JS1/23Q1/2 3s1/23Q3/2 3s1/23d3/2
J-2 J=3 J=4 J=5 J=O J=l J=l J=2 J=l J-2
65 0.357 -0.073 -0.213 0.059 -11.121 3.707 la.799 -ii ,280 -4.276 2.566
67 0.393 -0.078 -0.231 0.060 -11.548 3.849 19.545 -11.727 -4.435 2.661
JO 0.448 -0.064 -0.260 0.060 -12.195 4.065 20.677 -12.406 -4.678 2.807
74 0.610 -0.107 -0.338 0.067 -13.066 4.355 22.206 -13.324 -5.010 3.006
78 0.776 -0.126 -0.414 0.066 -13.953 4.651 23.763 -14.256 -5.353 3.212
a0 0.861 -0.134 -0.452 0.064 -14.402 4.801 24.553 -14.732 -5.528 3.317
a5 1.084 -0.151 -0.545 0.049 -15.547 5.182 26.557 -15.934 -5.981 3.589
aa 1.224 -0.159 -0.601 0.036 -16.246 5.416 27.777 -16.666 -6.263 3.758
90 1.320 -0.162 -0.637 0.025 -16.723 5.574 28.598 -17.159 -6.455 3.873
92 1.417 -0.165 -0.673 0.012 -17.203 5.734 29.422 -17.653 -6.651 3.991
95 1.565 -0.167 -0.727 0.011 -17.933 5.978 30.663 -18.398 -6.952 4.171
v5 Vl v2 TN3 v4
2 3s1/23d5/2 3sl/24s1/2 3=1/24p1/2 3sV24Q3/2 3sl/24d3/2 J=2 553 J-O J=l J-O J-l J=l 512 J=l J=2
65 6.276 -4.463 5.987 -1.996 -0.647 0.216 1.173 -0.704 -0.255 0.153
67 6.534 -4.667 6.271 -2.091 -0.672 0.224 1.227 -0.736 -0.265 0.159
70 6.933 -4.952 6.706 -2.236 -0.706 0.236 1.309 -0.785 -0.279 0.167
74 7.488 -5.349 7.304 -2.461 -0.763 0.254 1.447 -0.868 -0.303 0.182
78 a.071 -5.765 a.124 -2.706 -0.820 0.273 1.603 -0.962 -0.327 0.196
a0 a.375 -5.962 8.516 -2.839 -0.849 0.283 1.687 -1.012 -0.338 0.203
a5 9.172 -6.552 9.566 -3.189 -0.919 0.306 1.917 -1.150 -0.363 0.218
aa 9.679 -6.914 10.244 -3.415 -0.958 0.319 2.070 -1.242 -0.376 0.225
90 10.030 -7.164 lo.718 -3.573 -0.964 0.328 2.179 -1.308 -0.383 '0.230
92 10.391 -7.422 11.207 -3.736 -1.008 0.336 2.293 -1.376 -0.389 0.233
95 10.955 -7.825 11.975 -3.992 -1.040 0.347 2.476 -1.486 -0.396 0.238
442 F. PARENTE et al. L X-Ray satellite Eneqies
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
Ml"5 V6 v7 M2N3 “P4 2 3sl/24d5/2 3sl/24f5/2 3s1J24f7/2 3p1/23p3/2 3P1/23d3/2
J=2 J=3 ‘J=2 J=3 J=3 J=4 J=l J-2 J=l J-2
65 0.398 -0.284 -0.338 0.242 0.469 -0.365 -5.057 3.034 17.164 -10.298
67 0.418 -0.298 -0.366 0.261 0.510 -0.397 -5.235 3.141 17.890 -10.734
70 0.447 -0.319 -0.404 0.288 0.568 -0.441 -5.499 3.299 19.006 -11.404
74 0.499 -0.357 -0.528 0.377 0.758 -0.589 -5.841 3.505 20.550 -12.330
78 0.556 -0.397 -0.642 0.459 0.939 -0.730 -6.174 3.704 22.167 -13.300
80 0.585 -0.418 -0.695 0.497 1.027 -0.799 -6.336 3.802 23.006 -13.804
85 0.661 -0.472 -0.819 0.585 1.243 -0.967 -6.726 4.035 25.202 -15.121
a8 0.709 -0.507 -0.885 0.632 1.368 -1.064 -6.947 4.168 26.593 -15.956
90 0.742 -0.530 -0.925 0.661 1.449 -1.127 -7.088 4.253 27.553 -16.532
92 0.776 -0.554 -0.960 0.686 1.527 -1.187 -7.224 4.334 28.541 -17.125
95 0.828 -0.592 -1.006 0.719 1.638 -1.274 -7.415 4.449 30.079 -18.048
2
65
67
70
74
78
a0
05
88
90
92
95
M2"5 M2Nl M2N2 M2N3 M2N4
3P1/23d5/2 3p1/24=l/2 3P1/24h/2 3p1/24p3/2 3pl/24d3/2 J=2 5~3 J=O J=l J=O J=l J-l J=2 J=l J=2
-2.630 1.879 -0.821 0.274 6.517 -2.172 -0.439 0.263 0.815 -0.489
-2.723 1.945 -0.854 0.285 6.852 -2.284 -0.454 0.273 0.854 -0.512
-2.861 2.044 -0.904 0.301 7.369 -2.456 -0.478 0.287 0.912 -0.547
-3.043 2.174 -0.980 0.327 8.185 -2.728 -0.516 0.310 1.017 -0.610
-3.223 2.302 -1.060 0.353 9.086 -3.029 -0.557 0.334 1.133 -0.680
-3.312 2.366 -1.101 0.367 9.568 -3.189 -0.578 0.347 1.194 -0.716
-3.532 2.523 -1.206 0.402 10.863 -3.621 -0.630 0.378 1.358 -0.815
-3.662 2.615 -1.270 0.423 11.708 -3.903 -0.662 0.397 1.464 -0.879
-3.747 2.676 -1.313 0.438 12.302 -4.101 -0.684 0.410 1.540 -0.924
-3.831 2.736 -1.355 0.452 12.917 -4.306 -0.705 0.423 1.618 -0.971
-3.954 2.824 -1.419 0.473 13.892 -4.631 -0.736 0.441 1.745 -1.047
2
M2N5 M2N6 M2N7 M3"3
3P1/24d5/2 3pl 24f5/2 / 3Pl/24f7/2 3p3/23p3/2
J=2 J=3 J=2 J=3 5~3 J=4 J-O J=2
65 -0.181 0.129 0.824 -0.589 -0.197 0.153 14.014 -2.803
67 -0.186 0.133 0.894 -0.638 -0.212 0.165 14.567 -2.913
70 -0.193 0.138 0.993 -0.709 -0.232 0.181 15.401 -3.080
74 -0.207 0.148 '1.307 -0.934 -0.304 0.237 16.522 -3.304
78 -0.221 0.158 1.604 -1.146 -0.370 0.288 17.659 -3.532
80 -0.227 0.162 1.747 -1.248 -0.400 0.311 18.234 -3.647
a5 -0.241 0.172 2.090 -1.493 -0.470 0.366 19.694 -3.939
aa -0.248 0.177 2.285 -1.632 -0.507 0.395 20.587 -4.117
90 -0.252 0.180 2.410 -1.721 -0.530 0.412 21.190 -4.238
92 -0.255 0.182 2.526 -1.804 -0.550 0.428 21.798 -4.360
95 -0.258 0.185 2.689 -1.920 -0.576 0.448 22.723 -4.545
F. PARENTE et al; L X-Ray Satellite Energies 463
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
M3M4 "3M5 "3Hl 2 3Q3/23d3/2 3Q3/23d5/2 3Q3/24sl/2
J=O J-l J=2 J=3 J=l J=2 J=3 J-4 J-l J=2
65 0.870 2.545 -5.469 2.691 20.119 -3.961 11.587 -13.518 1.419 -0.851
67 0.968 2.647 -5.675 2.781 20.892 -4.100 11.972 -13.998 1.482 -0.889
70 1.125 2.804 -5.984 2.912 22.058 -4.309 12.550 -14.720 1.578 -0.947
74 1.349 3.017 -6.393 3.081 23.627 -4.584 13.327 -15.694 1.727 -1.036
78 1.596 3.238 -6.801 3.242 25.218 -4.858 14.110 -16.681 1.889 -1.133
80 1.728 3.351 -7.005 3.320 26.024 -4.994 14.504 -17.181 1.975 -1.185
85 2.088 3.643 -7.513 3.507 28.069 -5.334 15.498 -18.446 2.203 -1.322
88 2.325 3.825 -7.818 3.613 29.319 -5.537 16.100 -19.219 2.351 -1.411
90 2.492 3.949 -8.021 3.681 30.163 -5.672 16.505 -19.740 2.465 -1.473
92 2.668 4.076 -8.224 3.746 31.015 -5.806 16.912 -20.266 2.562 -1.537
95 2.947 4.272 -8.528 3.839 32.310 -6.007 17.526 -21.064 2.732 -1.639
"JN2 M3N3 M3N4 2 3Q3/24Q1/2 3Q3/24p3/2 3Q3/24d3/2
J-1 J=2 J=O J=l J=2 J=3 J=O J=l J=2 5x3
65 -0.451 0.271 9.260 -2.316 2.809 -2.337 2.iO4 0.498 -1.595 0.625
67 -0.469 0.281 9.665 -2.417 2.934 -2.441 2.218 0.526 -1.675 0.654
70 -0.495 0.297 10.273 -2.569 3.122 -2.597 2.390 0.568 -1.792 0.695
74 -0.536 0.322 11.253 -2.819 3.437 -2.854 2.671 0.638 -1.989 0.765
78 -0.580 0.348 12.312 -3.091 3.782 -3.136 2.974 0.714 -2.197 0.838
80 -0.603 0.362 12.865 -3.234 3.964 -3.283 3.132 0.753 -2.303 0.875
85 -0.662 0.397 14.306 -3.609 4.444 -3.671 3.543 0.856 -2.574 0.965
88 -0.699 0.420 15.209 -3.844 4.748 -3.916 3.801 0.922 -2.740 1.019
90 -0.725 0.435 15.825 -4.005 4.956 -4.084 3.978 0.966 -2.851 1.054
92 -0.751 0.451 16.447 -4.168 5.168 -4.255 4.157 1.011 -2.961 1.088
95 -0.792 0.475 17.397 -4.418 5.494 -4.516 4.433 1.081 -3.126 1.137
M3N5 M3N6 2 3Q3/24d5/2 3Q3/24f5/2
J=l J=2 J=3 J=4 J=l J=2 J-3 J=4
65 2.902 -0.483 -0.818 -0.063 1.244 0.047 -1.460 0.747
67 3.046 -0.504 -0.859 -0.067 1.331 -0.046 -1.569 0.802
70 3.260 -0.535 -0.920 -0.074 1.459 -0.044 -1.726 0.881
74 3.632 -0.589 -1.018 -0.091 1.839 -0.041 -2.206 1.126
78 4.030 -0.646 -1.122 -0.112 2.189 -0.032 -2.653 1.351
80 4.236 -0.675 -1.175 -0.123 2.359 -0.026 -2.868 1.459
85 4.764 -0.746 -1.313 -0.153 2.780 -0.008 -3.395 1.719
88 5.089 -0.788 -1.398 -0.171 3.032 -0.004 -3.704 1.868
90 5.309 -0.815 -1.457 -0.184 3.201 0.013 -3.907 1.964
92 5.527 -0.842 -1.516 -0.196 3.369 0.023 -4.104 2.056
95 5.857 -0.880 -1.606 -0.214 3.622 0.039 -4.395 2.189
F. PARENTE et al. L X-Ray Satellite Energies
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
M3N7 M4"4 M4"5 2 3P3/24f?/2 3d3/23d3/2 3d3/23d5/2
512 J=3 J=4 J=5 J=O J=2 J=l J=2 J-3 J=4
65 2.309 -0.527 -0.316 .-0.455 16.257 -3.251 4.507 0.5% -7.683 4.141
67 2.490 -0.565 -0.323 -0.509 16.978 -3.3% 4.745 0.633 -7.997 4.287
70 2.750 -0.618 -0.331 -0.586 18.068 -3.614 5.115 0.687 -8.467 4.498
74 3.592 -0.792 -0.354 -0.840 19.531 -3.906 5.628 0.764 -9.086 4.766
78 4.387 -0.951 -0.354 -1.100 21.019 -4.204 6.168 0.847 -9.703 5.020
80 4.775 -1.027 -0.349 -1.232 21.774 -4.355 6.450 0.891 -10.011 5.141
85 5.736 -1.210 -0.327 -1.570 23.6% -4.740 7.190 1.007 -10.780 5.428
88 6.307 -1.316 -0.309 -1.776 24.880 -4.976 7.660 1.082 -11.241 5.588
90 6.686 -1.386 -0.296 -1.915 25.660 -5.136 7.985 1.134 -11.548 5.690
92 7.055 -1.452 -0.283 -2.051 26.491 -5.2% 8.320 1.188 -11.856 5.787
95 7.604 -1.549 -0.263 -2.255 27.726 -5.546 8.841 1.274 -12.316 5.925
"4Nl 'qN2 M4N3 2 3d3/24sl/2 3d3/24Pl/2 3d3124P3/2
J=l J=2 J=l J=2 J=O J=l J-2 513
65 -0.456 0.273 1.366 -0.820 1.803 0.480 -1.573 0.660
67 -0.473 0.284 1.432 -0.859 1.885 0.502 -1.636 0.684
70 -0.499 0.299 1.533 -0.920 2.009 0.536 -1.728 0.718
74 -0.539 0.324 1.695 -1.017 2.203 0.589 -1.874 0.772
78 -0.583 0.350 1.873 -1.124 2.413 0.647 -2.030 0.828
80 -0.606 0.363 1.968 -1.181 2.523 0.677 -2.110 0.857
85 -0.665 0.399 2.223 -1.334 2.812 0.757 -2.315 0.928
88 -0.702 0.421 2.389 -1.434 2.995 0.808 -2.441 0.969
90 -0.727 0.436 2.506 -1.504 3.120 0.844 -2.526 0.997
92 -0.752 0.451 2.627 -1.576 3.248 0.880 -2.610 1.023
95 -0.791 0.475 2.818 -1.691 3.445 0.936 -2.73) 1.062
M4N4 M4N5
2 3d3/24d3/2 3d3/24d5/.2
J=O J=l J=2 513 J=l 512 5x3 J=4
65 9.340 -2.569 3.324 -2.608 1.605 -0.138 -1.625 0.805
67 9.796 -2.688 3.477 -2.731 1.688 -0.143 -1.699 0.838
70 10.479 -2.864 3.7% -2.917 1.814 -0.148 -1.809 0.885
74 11.688 -3.186 4.129 -3.254 2.029 -0.158 -2.001 0.968
78 13.007 -3.539 4.596 -3.624 2.263 -0.166 -2.207 1.054
80 13.694 -3.722 4.840 -3.818 2.386 -0.170 -2.311 1.097
85 15.486 -4.2OO 5.479 -4.326 2.708 -0.177 -2.580 1.203
88 16.606 -4.498 5.880 -4.644 2.911 -0.179 -2.744 1.264
90 17.370 -4.701 6.154 -4.862 3.050 -0.180 -2.854 1.303
92 18.138 -4.905 6.430 -5.082 3.190 -0.180 -2.962 1.341
95 19.310 -5.215 6.853 -5.419 3.407 -0.179 -3.125 1.395
F. PARFNTE etal. L X-Ray Satellite Energies
TABLE IV. Coulomb and Breit Interaction Energies for Two-Hole States (in eV) See page 387 for Explanation of Tables
2
65
67
70
74
78
80
85
88
90
92
95
M4N6 M4N7 M5”5
3d3/24f5/2 3d3/24f7/2 3d5/23d5/2
J=l J=2 5~3 5~4 J=2 J=3 J=4 J=5 J=O J=2 J=4
2.903 -0.526 0.973 -1.432 1.074 -0.322 -1.179 0.681 21.083 3.145 -4.090
3.133 -0.567 1.066 -1.559 1.149 -0.342 -1.261 0.727 22.015 3.291 -4.275
3.467 -0.625 1.201 -1.742 1.256 -0.370 -1.379 0.792 23.423 3.514 -4.555
4.514 -0.813 1.646 -2.333 1.605 -0.465 -1.771 1.015 25.307 3.815 -4.931
5.518 -0.992 2.087 -2.912 1.928 -0.549 -2.133 1.218 27.218 4.123 -5.315
6.012 -1.079 2.307 -3.199 2.085 -0.588 -2.307 1.314 28.187 4.281 -5.510
7.235 -1.291 2.852 -3.913 2.470 -0.680 -2.731 1.544 30.648 4.687 -6.009
7.965 -1.415 3.176 -4.339 2.699 -0.731 -2.979 1.676 32.756 4.939 -6.316
8.450 -1.497 3.389 -4.621 2.851 -0.764 -3.142 1.761 33.173 5.110 -6.525
8.921 -1.575 3.593 -4.893 3.000 -0.796 -3.300 1.842 34.204 5.284 -6.736
9.622 -1.690 3.893 -5.297 3.223 -0.840 -3.531 1.959 35.769 5.551 -7.058
465 Atmic Data and Nuclm Data TabI- Vol. 26, No. 5, Saptmber lW1
F. PAltErn et al. L X-Ray satellite Enelgies
TABLE V. Relative X-Ray Intensities of Double-Hole Multiplet States See page 387 for Explanation of Tables
Transitions Total angular momentum
J J' (2J+l)*C,
sl/2sl/2"h/2sl/2' 0 1 1
i 0 1 :
sl/2sl/2'*p3/2s1/2'
sl/2pl/2 * p3/2pl/2
p1/2s1/2 + d3/2sl/2
PI /2p1/2’+ d3/2P1/2’
s1/2p3/2 * p1/2p3/2
S1/2d3/2 + P1/2d3/2 \
1
:
1 II2 512
l/2 512 5i2 512
l/2 514 5/4 S1/2d3/2 + P3/2d3/2
PI /2p3/2 -, d3/2P3/2 \
lj4 5/4 7l2
lOI9
ii:: 2819
s1/2d5/2 + b/2%/2
312 35ila 1419 S1/2d5/2 + P3/2d5/2
PI /2d5/2 + d3/2d5/2
p3/2s1 /2 + d3/2s1/2
p3/2p1/2 + d3/2P1 /2 I
p3/2s1/2 -t d5/2S1 /2
p3/2p1/2 * d5j2P1/2
5/g 35ila
912
5l2 l/2 112 912
: 2
1:3 1413
0 1
1 1
2:5 ai5 ai5
7:5 7l5
2815
p3/2p3/2’ -+ d3/2P3/2’
9ilO 21/10
l/l0 716
56/15 l/15
14/15 6
p3/2p3/2’ -+ d5/2P3/2’
P3/2d3/2 -, d5/2d3/2
g/10 21/10 21110
i/la
ii::::